Index: lucene/src/test/org/apache/lucene/index/codecs/simple64/Simple64Test.java =================================================================== --- lucene/src/test/org/apache/lucene/index/codecs/simple64/Simple64Test.java (revision 0) +++ lucene/src/test/org/apache/lucene/index/codecs/simple64/Simple64Test.java (revision 0) @@ -0,0 +1,127 @@ +package org.apache.lucene.index.codecs.simple64; + +/** + * 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 org.apache.lucene.index.BulkPostingsEnum.BlockReader; +import org.apache.lucene.index.codecs.CodecTestCase; +import org.apache.lucene.index.codecs.sep.IntIndexInput; +import org.apache.lucene.index.codecs.sep.IntIndexOutput; +import org.apache.lucene.index.codecs.sep.IntStreamFactory; +import org.apache.lucene.store.RAMDirectory; +import org.junit.Test; + +public class Simple64Test extends CodecTestCase { + + @Test + public void testSimple() throws IOException { + final int blockSize = 60; + final RAMDirectory dir = new RAMDirectory(); + final String filename = Simple64.class.toString(); + final IntStreamFactory factory = new Simple64Codec(blockSize).getIntFactory(); + final IntIndexOutput output = factory.createOutput(dir, filename); + final int[] values = { 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, + 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,}; + + for (final int element : values) { + output.write(element); + } + output.close(); + + final IntIndexInput input = factory.openInput(dir, filename); + final BlockReader reader = input.reader(); + int buffer[] = reader.getBuffer(); + reader.fill(); + for (int i = 0; i < values.length; i++) { + assertEquals("Error at record " + i, values[i], buffer[i]); + } + input.close(); + dir.close(); + } + + @Test + public void testSimple16bits() throws IOException { + final int blockSize = 60; + final RAMDirectory dir = new RAMDirectory(); + final String filename = Simple64.class.toString(); + final IntStreamFactory factory = new Simple64Codec(blockSize).getIntFactory(); + final IntIndexOutput output = factory.createOutput(dir, filename); + final int[] values = { 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,60149,60149,60149,60149,60149,60149,60149,60149, + 60149,}; + + for (final int element : values) { + output.write(element); + } + output.close(); + + final IntIndexInput input = factory.openInput(dir, filename); + final BlockReader reader = input.reader(); + int buffer[] = reader.getBuffer(); + reader.fill(); + for (int i = 0; i < values.length; i++) { + assertEquals("Error at record " + i, values[i], buffer[i]); + } + input.close(); + dir.close(); + } + + @Override + public void doTest(final int[] values, final int blockSize) + throws IOException { + final RAMDirectory dir = new RAMDirectory(); + final String filename = Simple64.class.toString(); + final IntStreamFactory factory = new Simple64Codec(blockSize).getIntFactory(); + final IntIndexOutput output = factory.createOutput(dir, filename); + + for (final int element : values) { + output.write(element); + } + output.close(); + + final IntIndexInput input = factory.openInput(dir, filename); + final BlockReader reader = input.reader(); + int buffer[] = reader.getBuffer(); + int pointer = 0; + int pointerMax = reader.fill(); + assertTrue(pointerMax > 0); + + for(int i=0;i 0); + pointer = 0; + } + assertEquals(values[i], buffer[pointer++]); + } + + input.close(); + dir.close(); + } + + @Test + public void testIntegerRange32() throws IOException { + this.doTestIntegerRange(1, 32); + } +} Property changes on: lucene\src\test\org\apache\lucene\index\codecs\simple64\Simple64Test.java ___________________________________________________________________ Added: svn:eol-style + native Index: lucene/src/test/org/apache/lucene/index/codecs/CodecTestCase.java =================================================================== --- lucene/src/test/org/apache/lucene/index/codecs/CodecTestCase.java (revision 0) +++ lucene/src/test/org/apache/lucene/index/codecs/CodecTestCase.java (revision 0) @@ -0,0 +1,65 @@ +package org.apache.lucene.index.codecs; + +/** + * 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 org.apache.lucene.util.LuceneTestCase; + +public abstract class CodecTestCase extends LuceneTestCase { + + private static final int LIST_SIZE = 32768; + + /** + * The different block sizes to test + */ + protected static final int[] BLOCK_SIZES = {32, 256, 512, 2048}; + + /** both are inclusive! */ + public static long nextLong(long start, long end) { + double r = random.nextDouble(); + return (long) ((r * end) + ((1.0 - r) * start) + r); + } + + public void doTestIntegerRange(final int minBits, final int maxBits, final int[] blockSizes) throws IOException { + final int[] input = new int[LIST_SIZE]; + + for (int i = minBits; i <= maxBits; i++) { + + final long min = i == 1 ? 0 : (1L << (i - 1)); + final long max = ((1L << i) - 1); + + for (int j = 0; j < LIST_SIZE; j++) { + input[j] = (int) nextLong(min, max); + } + + for (final int blockSize : blockSizes) { + if (VERBOSE) + System.out.println("Perform Integer Range Test: bits = {" + i + "}, block size = {" + blockSize + "}"); + this.doTest(input, blockSize); + } + } + } + + public void doTestIntegerRange(final int minBits, final int maxBits) throws IOException { + this.doTestIntegerRange(minBits, maxBits, BLOCK_SIZES); + } + + protected abstract void doTest(int[] input, int blockSize) throws IOException; + +} Property changes on: lucene\src\test\org\apache\lucene\index\codecs\CodecTestCase.java ___________________________________________________________________ Added: svn:eol-style + native Index: lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64Codec.java =================================================================== --- lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64Codec.java (revision 0) +++ lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64Codec.java (revision 0) @@ -0,0 +1,216 @@ +package org.apache.lucene.index.codecs.simple64; + +/** + * 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.nio.ByteBuffer; +import java.util.Set; + +import org.apache.lucene.index.SegmentInfo; +import org.apache.lucene.index.SegmentWriteState; +import org.apache.lucene.index.SegmentReadState; +import org.apache.lucene.index.codecs.Codec; +import org.apache.lucene.index.codecs.FieldsConsumer; +import org.apache.lucene.index.codecs.FieldsProducer; +import org.apache.lucene.index.codecs.sep.IntStreamFactory; +import org.apache.lucene.index.codecs.sep.IntIndexInput; +import org.apache.lucene.index.codecs.sep.IntIndexOutput; +import org.apache.lucene.index.codecs.sep.SepPostingsReaderImpl; +import org.apache.lucene.index.codecs.sep.SepPostingsWriterImpl; +import org.apache.lucene.index.codecs.intblock.FixedIntBlockIndexInput; +import org.apache.lucene.index.codecs.intblock.FixedIntBlockIndexOutput; +import org.apache.lucene.index.codecs.PostingsWriterBase; +import org.apache.lucene.index.codecs.PostingsReaderBase; +import org.apache.lucene.index.codecs.BlockTermsReader; +import org.apache.lucene.index.codecs.BlockTermsWriter; +import org.apache.lucene.index.codecs.TermsIndexReaderBase; +import org.apache.lucene.index.codecs.TermsIndexWriterBase; +import org.apache.lucene.index.codecs.VariableGapTermsIndexReader; +import org.apache.lucene.index.codecs.VariableGapTermsIndexWriter; +import org.apache.lucene.index.codecs.standard.StandardCodec; +import org.apache.lucene.store.*; +import org.apache.lucene.util.BytesRef; + +/** + * Simple64 + */ + +// nocommit: we are wasting bits by packing blocks of integers into as few longs as possible? +// we should be a variable int block codec instead? +// we then shouldnt need header bytes at all... we read a fixed number of longs per block. +public class Simple64Codec extends Codec { + + private final int blockSize; + + public Simple64Codec(int blockSize) { + this.blockSize = blockSize; + name = "Simple64"; + } + + @Override + public String toString() { + return name + "(blockSize=" + blockSize + ")"; + } + + // only for testing + public IntStreamFactory getIntFactory() { + return new Simple64IntFactory(); + } + + private class Simple64IntFactory extends IntStreamFactory { + + @Override + public IntIndexInput openInput(Directory dir, String fileName, int readBufferSize) throws IOException { + return new FixedIntBlockIndexInput(dir.openInput(fileName, readBufferSize)) { + + @Override + protected BlockReader getBlockReader(final IndexInput in, final int[] buffer) throws IOException { + return new BlockReader() { + final ByteBuffer byteBuffer = ByteBuffer.allocate(blockSize*8); + final byte[] input = byteBuffer.array(); + final Simple64 decompressor = new Simple64(); + + { + decompressor.setCompressedBuffer(byteBuffer.asLongBuffer()); + } + + public void readBlock() throws IOException { + final int numBytes = in.readVInt() << 3; // read header + in.readBytes(input, 0, numBytes); + decompressor.setUnCompressedData(buffer, 0, buffer.length); + decompressor.decompress(); + } + }; + } + }; + } + + @Override + public IntIndexOutput createOutput(Directory dir, String fileName) throws IOException { + return new FixedIntBlockIndexOutput(dir.createOutput(fileName), blockSize) { + final ByteBuffer byteBuffer = ByteBuffer.allocate(blockSize*8); + final byte[] output = byteBuffer.array(); + final Simple64 compressor = new Simple64(); + + { + compressor.setCompressedBuffer(byteBuffer.asLongBuffer()); + } + + @Override + protected void flushBlock() throws IOException { + compressor.setUnCompressedData(buffer, 0, buffer.length); + compressor.compress(); + final int numBytes = compressor.compressedSize(); + out.writeVInt(numBytes >>> 3); + out.writeBytes(output, numBytes); + } + }; + } + } + + @Override + public FieldsConsumer fieldsConsumer(SegmentWriteState state) throws IOException { + PostingsWriterBase postingsWriter = new SepPostingsWriterImpl(state, new Simple64IntFactory()); + + boolean success = false; + TermsIndexWriterBase indexWriter; + try { + indexWriter = new VariableGapTermsIndexWriter(state, new VariableGapTermsIndexWriter.EveryNTermSelector(state.termIndexInterval)); + success = true; + } finally { + if (!success) { + postingsWriter.close(); + } + } + + success = false; + try { + FieldsConsumer ret = new BlockTermsWriter(indexWriter, state, postingsWriter, BytesRef.getUTF8SortedAsUnicodeComparator()); + success = true; + return ret; + } finally { + if (!success) { + try { + postingsWriter.close(); + } finally { + indexWriter.close(); + } + } + } + } + + @Override + public FieldsProducer fieldsProducer(SegmentReadState state) throws IOException { + PostingsReaderBase postingsReader = new SepPostingsReaderImpl(state.dir, + state.segmentInfo, + state.readBufferSize, + new Simple64IntFactory(), state.codecId); + + TermsIndexReaderBase indexReader; + boolean success = false; + try { + indexReader = new VariableGapTermsIndexReader(state.dir, + state.fieldInfos, + state.segmentInfo.name, + state.termsIndexDivisor, + state.codecId); + success = true; + } finally { + if (!success) { + postingsReader.close(); + } + } + + success = false; + try { + FieldsProducer ret = new BlockTermsReader(indexReader, + state.dir, + state.fieldInfos, + state.segmentInfo.name, + postingsReader, + state.readBufferSize, + BytesRef.getUTF8SortedAsUnicodeComparator(), + StandardCodec.TERMS_CACHE_SIZE, + state.codecId); + success = true; + return ret; + } finally { + if (!success) { + try { + postingsReader.close(); + } finally { + indexReader.close(); + } + } + } + } + + @Override + public void files(Directory dir, SegmentInfo segmentInfo, String codecId, Set files) { + SepPostingsReaderImpl.files(segmentInfo, codecId, files); + BlockTermsReader.files(dir, segmentInfo, codecId, files); + VariableGapTermsIndexReader.files(dir, segmentInfo, codecId, files); + } + + @Override + public void getExtensions(Set extensions) { + SepPostingsWriterImpl.getExtensions(extensions); + BlockTermsReader.getExtensions(extensions); + VariableGapTermsIndexReader.getIndexExtensions(extensions); + } +} Property changes on: lucene\src\java\org\apache\lucene\index\codecs\simple64\Simple64Codec.java ___________________________________________________________________ Added: svn:eol-style + native Index: lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64.java =================================================================== --- lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64.java (revision 0) +++ lucene/src/java/org/apache/lucene/index/codecs/simple64/Simple64.java (revision 0) @@ -0,0 +1,620 @@ +/** + * 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.index.codecs.simple64; + +import java.nio.LongBuffer; + +public class Simple64 { + + protected int compressedSize = 0; + protected LongBuffer compressedBuffer; + + /** Uncompressed data */ + protected int[] unCompressedData; + /** Offset into unCompressedData */ + protected int offset; + /** Size of unCompressedData, -1 when not available. */ + protected int unComprSize = -1; + + public void setCompressedBuffer(final LongBuffer compressedBuffer) { + this.compressedBuffer = compressedBuffer; + } + + public void setUnCompressedData(final int[] unCompressedData, + final int offset, final int unComprSize) { + this.unCompressedData = unCompressedData; + this.offset = offset; + this.unComprSize = unComprSize; + } + + public int compressedSize() { + return this.compressedSize; + } + + private static final int NUM_DATA_BITS = 60; + private static final long BITS_60_MASK = (1L << 60) - 1; + private static final long BITS_30_MASK = (1 << 30) - 1; + private static final long BITS_20_MASK = (1 << 20) - 1; + private static final long BITS_15_MASK = (1 << 15) - 1; + private static final long BITS_12_MASK = (1 << 12) - 1; + private static final long BITS_11_MASK = (1 << 11) - 1; + private static final long BITS_10_MASK = (1 << 10) - 1; + private static final long BITS_8_MASK = (1 << 8) - 1; // 4 bits unused, then the last value take them + private static final long BITS_7_MASK = (1 << 7) - 1; // 4 bits unused, then the last value take them + private static final long BITS_6_MASK = (1 << 6) - 1; + private static final long BITS_5_MASK = (1 << 5) - 1; + private static final long BITS_4_MASK = (1 << 4) - 1; + private static final long BITS_3_MASK = (1 << 3) - 1; + private static final long BITS_2_MASK = (1 << 2) - 1; + private static final long BITS_1_MASK = (1 << 1) - 1; + + private static final int STATUS_1NUM_60BITS = 14; + private static final int STATUS_2NUM_30BITS = 13; + private static final int STATUS_3NUM_20BITS = 12; + private static final int STATUS_4NUM_15BITS = 11; + private static final int STATUS_5NUM_12BITS = 10; + private static final int STATUS_6NUM_10BITS = 9; + private static final int STATUS_7NUM_8BITS = 8; + private static final int STATUS_8NUM_7BITS = 7; + private static final int STATUS_10NUM_6BITS = 6; + private static final int STATUS_12NUM_5BITS = 5; + private static final int STATUS_15NUM_4BITS = 4; + private static final int STATUS_20NUM_3BITS = 3; + private static final int STATUS_30NUM_2BITS = 2; + private static final int STATUS_60NUM_1BITS = 1; + + public static int compressSingle(final int[] uncompressed, final int inOffset, final int inSize, final LongBuffer compressedBuffer, final int outOffset) { + if (inSize < 1) { + throw new IllegalArgumentException("Cannot compress input with non positive size " + inSize); + } + int inputCompressable = 1; + int minBits = 1; + long maxFitPlus1 = (1 << minBits); + long nextData; + + do { + nextData = uncompressed[inOffset + inputCompressable - 1] & 0xFFFFFFFFL; + if (nextData < 0) { + throw new IllegalArgumentException("Cannot compress negative input " + nextData + " (at index " + (inOffset+inputCompressable-1) + ")"); + } + while ((nextData >= maxFitPlus1) && (minBits < NUM_DATA_BITS)) + { + if ((minBits == 7) && (inputCompressable == 8) && (nextData < (maxFitPlus1 << 4))) { + break; + } else if ((minBits == 8) && (inputCompressable == 7) && (nextData < (maxFitPlus1 << 4))) { + break; + } else { + minBits++; + maxFitPlus1 <<= 1; + if ((inputCompressable * minBits) > NUM_DATA_BITS) { + inputCompressable--; + break; + } + } + } + inputCompressable++; + } while (((inputCompressable * minBits) <= NUM_DATA_BITS) && (inputCompressable <= inSize)); + + inputCompressable--; + if (inputCompressable == 0) { + throw new IllegalArgumentException("Cannot compress input " + nextData + " with more than " + NUM_DATA_BITS + " bits (at offSet " + inOffset + ")"); + } + + // Check whether a bigger number of bits can be used: + while ((inputCompressable * (minBits+1)) <= NUM_DATA_BITS) { + minBits++; + } + + if (((inputCompressable+1) * minBits) <= NUM_DATA_BITS) { + // not enough input available for minBits + minBits++; + // do not compress all available input + inputCompressable = NUM_DATA_BITS / minBits; + } + + // Put compression method in status bits and encode input data + long s9; + switch (minBits) { // add status bits and later input values + case 60: + s9 = STATUS_1NUM_60BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + compressedBuffer.put(outOffset, s9); + return 1; + case 30: + s9 = STATUS_2NUM_30BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 34; + compressedBuffer.put(outOffset, s9); + return 2; + case 20: + s9 = STATUS_3NUM_20BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 24; + s9 |= (long) (uncompressed[inOffset+2]) << 44; + compressedBuffer.put(outOffset, s9); + return 3; + case 15: + s9 = STATUS_4NUM_15BITS; + s9 |= ((long) (uncompressed[inOffset]) << 4); + s9 |= (long) (uncompressed[inOffset+1]) << 19; + s9 |= (long) (uncompressed[inOffset+2]) << 34; + s9 |= (long) (uncompressed[inOffset+3]) << 49; + compressedBuffer.put(outOffset, s9); + return 4; + case 12: + s9 = STATUS_5NUM_12BITS; + s9 |= ((long) (uncompressed[inOffset]) << 4); + s9 |= (long) (uncompressed[inOffset+1]) << 16; + s9 |= (long) (uncompressed[inOffset+2]) << 28; + s9 |= (long) (uncompressed[inOffset+3]) << 40; + s9 |= (long) (uncompressed[inOffset+4]) << 52; + compressedBuffer.put(outOffset, s9); + return 5; + case 10: + s9 = STATUS_6NUM_10BITS; + s9 |= ((long) (uncompressed[inOffset]) << 4); + s9 |= (long) (uncompressed[inOffset+1]) << 14; + s9 |= (long) (uncompressed[inOffset+2]) << 24; + s9 |= (long) (uncompressed[inOffset+3]) << 34; + s9 |= (long) (uncompressed[inOffset+4]) << 44; + s9 |= (long) (uncompressed[inOffset+5]) << 54; + compressedBuffer.put(outOffset, s9); + return 6; + case 8: + s9 = STATUS_7NUM_8BITS; + s9 |= ((long) (uncompressed[inOffset]) << 4); + s9 |= (long) (uncompressed[inOffset+1]) << 12; + s9 |= (long) (uncompressed[inOffset+2]) << 20; + s9 |= (long) (uncompressed[inOffset+3]) << 28; + s9 |= (long) (uncompressed[inOffset+4]) << 36; + s9 |= (long) (uncompressed[inOffset+5]) << 44; + s9 |= (long) (uncompressed[inOffset+6]) << 52; // 4 more bits + compressedBuffer.put(outOffset, s9); + return 7; + case 7: + s9 = STATUS_8NUM_7BITS; + s9 |= ((long) (uncompressed[inOffset]) << 4); + s9 |= (long) (uncompressed[inOffset+1]) << 11; + s9 |= (long) (uncompressed[inOffset+2]) << 18; + s9 |= (long) (uncompressed[inOffset+3]) << 25; + s9 |= (long) (uncompressed[inOffset+4]) << 32; + s9 |= (long) (uncompressed[inOffset+5]) << 39; + s9 |= (long) (uncompressed[inOffset+6]) << 46; + s9 |= (long) (uncompressed[inOffset+7]) << 53; // 4 more bits + compressedBuffer.put(outOffset, s9); + return 8; + case 6: + s9 = STATUS_10NUM_6BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 10; + s9 |= (long) (uncompressed[inOffset+2]) << 16; + s9 |= (long) (uncompressed[inOffset+3]) << 22; + s9 |= (long) (uncompressed[inOffset+4]) << 28; + s9 |= (long) (uncompressed[inOffset+5]) << 34; + s9 |= (long) (uncompressed[inOffset+6]) << 40; + s9 |= (long) (uncompressed[inOffset+7]) << 46; + s9 |= (long) (uncompressed[inOffset+8]) << 52; + s9 |= (long) (uncompressed[inOffset+9]) << 58; + compressedBuffer.put(outOffset, s9); + return 10; + case 5: + s9 = STATUS_12NUM_5BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 9; + s9 |= (long) (uncompressed[inOffset+2]) << 14; + s9 |= (long) (uncompressed[inOffset+3]) << 19; + s9 |= (long) (uncompressed[inOffset+4]) << 24; + s9 |= (long) (uncompressed[inOffset+5]) << 29; + s9 |= (long) (uncompressed[inOffset+6]) << 34; + s9 |= (long) (uncompressed[inOffset+7]) << 39; + s9 |= (long) (uncompressed[inOffset+8]) << 44; + s9 |= (long) (uncompressed[inOffset+9]) << 49; + s9 |= (long) (uncompressed[inOffset+10]) << 54; + s9 |= (long) (uncompressed[inOffset+11]) << 59; + compressedBuffer.put(outOffset, s9); + return 12; + case 4: + s9 = STATUS_15NUM_4BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 8; + s9 |= (long) (uncompressed[inOffset+2]) << 12; + s9 |= (long) (uncompressed[inOffset+3]) << 16; + s9 |= (long) (uncompressed[inOffset+4]) << 20; + s9 |= (long) (uncompressed[inOffset+5]) << 24; + s9 |= (long) (uncompressed[inOffset+6]) << 28; + s9 |= (long) (uncompressed[inOffset+7]) << 32; + s9 |= (long) (uncompressed[inOffset+8]) << 36; + s9 |= (long) (uncompressed[inOffset+9]) << 40; + s9 |= (long) (uncompressed[inOffset+10]) << 44; + s9 |= (long) (uncompressed[inOffset+11]) << 48; + s9 |= (long) (uncompressed[inOffset+12]) << 52; + s9 |= (long) (uncompressed[inOffset+13]) << 56; + s9 |= (long) (uncompressed[inOffset+14]) << 60; + compressedBuffer.put(outOffset, s9); + return 15; + case 3: + s9 = STATUS_20NUM_3BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 7; + s9 |= (long) (uncompressed[inOffset+2]) << 10; + s9 |= (long) (uncompressed[inOffset+3]) << 13; + s9 |= (long) (uncompressed[inOffset+4]) << 16; + s9 |= (long) (uncompressed[inOffset+5]) << 19; + s9 |= (long) (uncompressed[inOffset+6]) << 22; + s9 |= (long) (uncompressed[inOffset+7]) << 25; + s9 |= (long) (uncompressed[inOffset+8]) << 28; + s9 |= (long) (uncompressed[inOffset+9]) << 31; + s9 |= (long) (uncompressed[inOffset+10]) << 34; + s9 |= (long) (uncompressed[inOffset+11]) << 37; + s9 |= (long) (uncompressed[inOffset+12]) << 40; + s9 |= (long) (uncompressed[inOffset+13]) << 43; + s9 |= (long) (uncompressed[inOffset+14]) << 46; + s9 |= (long) (uncompressed[inOffset+15]) << 49; + s9 |= (long) (uncompressed[inOffset+16]) << 52; + s9 |= (long) (uncompressed[inOffset+17]) << 55; + s9 |= (long) (uncompressed[inOffset+18]) << 58; + s9 |= (long) (uncompressed[inOffset+19]) << 61; + compressedBuffer.put(outOffset, s9); + return 20; + case 2: + s9 = STATUS_30NUM_2BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 6; + s9 |= (long) (uncompressed[inOffset+2]) << 8; + s9 |= (long) (uncompressed[inOffset+3]) << 10; + s9 |= (long) (uncompressed[inOffset+4]) << 12; + s9 |= (long) (uncompressed[inOffset+5]) << 14; + s9 |= (long) (uncompressed[inOffset+6]) << 16; + s9 |= (long) (uncompressed[inOffset+7]) << 18; + s9 |= (long) (uncompressed[inOffset+8]) << 20; + s9 |= (long) (uncompressed[inOffset+9]) << 22; + s9 |= (long) (uncompressed[inOffset+10]) << 24; + s9 |= (long) (uncompressed[inOffset+11]) << 26; + s9 |= (long) (uncompressed[inOffset+12]) << 28; + s9 |= (long) (uncompressed[inOffset+13]) << 30; + s9 |= (long) (uncompressed[inOffset+14]) << 32; + s9 |= (long) (uncompressed[inOffset+15]) << 34; + s9 |= (long) (uncompressed[inOffset+16]) << 36; + s9 |= (long) (uncompressed[inOffset+17]) << 38; + s9 |= (long) (uncompressed[inOffset+18]) << 40; + s9 |= (long) (uncompressed[inOffset+19]) << 42; + s9 |= (long) (uncompressed[inOffset+20]) << 44; + s9 |= (long) (uncompressed[inOffset+21]) << 46; + s9 |= (long) (uncompressed[inOffset+22]) << 48; + s9 |= (long) (uncompressed[inOffset+23]) << 50; + s9 |= (long) (uncompressed[inOffset+24]) << 52; + s9 |= (long) (uncompressed[inOffset+25]) << 54; + s9 |= (long) (uncompressed[inOffset+26]) << 56; + s9 |= (long) (uncompressed[inOffset+27]) << 58; + s9 |= (long) (uncompressed[inOffset+28]) << 60; + s9 |= (long) (uncompressed[inOffset+29]) << 62; + compressedBuffer.put(outOffset, s9); + return 30; + case 1: + s9 = STATUS_60NUM_1BITS; + s9 |= (long) (uncompressed[inOffset]) << 4; + s9 |= (long) (uncompressed[inOffset+1]) << 5; + s9 |= (long) (uncompressed[inOffset+2]) << 6; + s9 |= (long) (uncompressed[inOffset+3]) << 7; + s9 |= (long) (uncompressed[inOffset+4]) << 8; + s9 |= (long) (uncompressed[inOffset+5]) << 9; + s9 |= (long) (uncompressed[inOffset+6]) << 10; + s9 |= (long) (uncompressed[inOffset+7]) << 11; + s9 |= (long) (uncompressed[inOffset+8]) << 12; + s9 |= (long) (uncompressed[inOffset+9]) << 13; + s9 |= (long) (uncompressed[inOffset+10]) << 14; + s9 |= (long) (uncompressed[inOffset+11]) << 15; + s9 |= (long) (uncompressed[inOffset+12]) << 16; + s9 |= (long) (uncompressed[inOffset+13]) << 17; + s9 |= (long) (uncompressed[inOffset+14]) << 18; + s9 |= (long) (uncompressed[inOffset+15]) << 19; + s9 |= (long) (uncompressed[inOffset+16]) << 20; + s9 |= (long) (uncompressed[inOffset+17]) << 21; + s9 |= (long) (uncompressed[inOffset+18]) << 22; + s9 |= (long) (uncompressed[inOffset+19]) << 23; + s9 |= (long) (uncompressed[inOffset+20]) << 24; + s9 |= (long) (uncompressed[inOffset+21]) << 25; + s9 |= (long) (uncompressed[inOffset+22]) << 26; + s9 |= (long) (uncompressed[inOffset+23]) << 27; + s9 |= (long) (uncompressed[inOffset+24]) << 28; + s9 |= (long) (uncompressed[inOffset+25]) << 29; + s9 |= (long) (uncompressed[inOffset+26]) << 30; + s9 |= (long) (uncompressed[inOffset+27]) << 31; + s9 |= (long) (uncompressed[inOffset+28]) << 32; + s9 |= (long) (uncompressed[inOffset+29]) << 33; + s9 |= (long) (uncompressed[inOffset+30]) << 34; + s9 |= (long) (uncompressed[inOffset+31]) << 35; + s9 |= (long) (uncompressed[inOffset+32]) << 36; + s9 |= (long) (uncompressed[inOffset+33]) << 37; + s9 |= (long) (uncompressed[inOffset+34]) << 38; + s9 |= (long) (uncompressed[inOffset+35]) << 39; + s9 |= (long) (uncompressed[inOffset+36]) << 40; + s9 |= (long) (uncompressed[inOffset+37]) << 41; + s9 |= (long) (uncompressed[inOffset+38]) << 42; + s9 |= (long) (uncompressed[inOffset+39]) << 43; + s9 |= (long) (uncompressed[inOffset+40]) << 44; + s9 |= (long) (uncompressed[inOffset+41]) << 45; + s9 |= (long) (uncompressed[inOffset+42]) << 46; + s9 |= (long) (uncompressed[inOffset+43]) << 47; + s9 |= (long) (uncompressed[inOffset+44]) << 48; + s9 |= (long) (uncompressed[inOffset+45]) << 49; + s9 |= (long) (uncompressed[inOffset+46]) << 50; + s9 |= (long) (uncompressed[inOffset+47]) << 51; + s9 |= (long) (uncompressed[inOffset+48]) << 52; + s9 |= (long) (uncompressed[inOffset+49]) << 53; + s9 |= (long) (uncompressed[inOffset+50]) << 54; + s9 |= (long) (uncompressed[inOffset+51]) << 55; + s9 |= (long) (uncompressed[inOffset+52]) << 56; + s9 |= (long) (uncompressed[inOffset+53]) << 57; + s9 |= (long) (uncompressed[inOffset+54]) << 58; + s9 |= (long) (uncompressed[inOffset+55]) << 59; + s9 |= (long) (uncompressed[inOffset+56]) << 60; + s9 |= (long) (uncompressed[inOffset+57]) << 61; + s9 |= (long) (uncompressed[inOffset+58]) << 62; + s9 |= (long) (uncompressed[inOffset+59]) << 63; + compressedBuffer.put(outOffset, s9); + return 60; + default: + throw new Error("S98b.compressSingle internal error: unknown minBits: " + minBits); + } + } + + + public static int decompressSingle(final long s9, final int[] decompressed, final int outOffset) { + switch ((int) (s9 & 15)) { + case STATUS_1NUM_60BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_60_MASK); // The value can't be bigger than 2^32-1 + return 1; + case STATUS_2NUM_30BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_30_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 34) & BITS_30_MASK); + return 2; + case STATUS_3NUM_20BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_20_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 24) & BITS_20_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 44) & BITS_20_MASK); + return 3; + case STATUS_4NUM_15BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_15_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 19) & BITS_15_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 34) & BITS_15_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 49) & BITS_15_MASK); + return 4; + case STATUS_5NUM_12BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_12_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 16) & BITS_12_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 28) & BITS_12_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 40) & BITS_12_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 52) & BITS_12_MASK); + return 5; + case STATUS_6NUM_10BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_10_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 14) & BITS_10_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 24) & BITS_10_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 34) & BITS_10_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 44) & BITS_10_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 54) & BITS_10_MASK); + return 6; + case STATUS_7NUM_8BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_8_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 12) & BITS_8_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 20) & BITS_8_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 28) & BITS_8_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 36) & BITS_8_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 44) & BITS_8_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 52) & BITS_12_MASK); + return 7; + case STATUS_8NUM_7BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_7_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 11) & BITS_7_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 18) & BITS_7_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 25) & BITS_7_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 32) & BITS_7_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 39) & BITS_7_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 46) & BITS_7_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 53) & BITS_11_MASK); + return 8; + case STATUS_10NUM_6BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_6_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 10) & BITS_6_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 16) & BITS_6_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 22) & BITS_6_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 28) & BITS_6_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 34) & BITS_6_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 40) & BITS_6_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 46) & BITS_6_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 52) & BITS_6_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 58) & BITS_6_MASK); + return 10; + case STATUS_12NUM_5BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_5_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 9) & BITS_5_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 14) & BITS_5_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 19) & BITS_5_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 24) & BITS_5_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 29) & BITS_5_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 34) & BITS_5_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 39) & BITS_5_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 44) & BITS_5_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 49) & BITS_5_MASK); + decompressed[outOffset+10] = (int) ((s9 >>> 54) & BITS_5_MASK); + decompressed[outOffset+11] = (int) ((s9 >>> 59) & BITS_5_MASK); + return 12; + case STATUS_15NUM_4BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_4_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 8) & BITS_4_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 12) & BITS_4_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 16) & BITS_4_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 20) & BITS_4_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 24) & BITS_4_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 28) & BITS_4_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 32) & BITS_4_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 36) & BITS_4_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 40) & BITS_4_MASK); + decompressed[outOffset+10] = (int) ((s9 >>> 44) & BITS_4_MASK); + decompressed[outOffset+11] = (int) ((s9 >>> 48) & BITS_4_MASK); + decompressed[outOffset+12] = (int) ((s9 >>> 52) & BITS_4_MASK); + decompressed[outOffset+13] = (int) ((s9 >>> 56) & BITS_4_MASK); + decompressed[outOffset+14] = (int) ((s9 >>> 60) & BITS_4_MASK); + return 15; + case STATUS_20NUM_3BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_3_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 7) & BITS_3_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 10) & BITS_3_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 13) & BITS_3_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 16) & BITS_3_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 19) & BITS_3_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 22) & BITS_3_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 25) & BITS_3_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 28) & BITS_3_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 31) & BITS_3_MASK); + decompressed[outOffset+10] = (int) ((s9 >>> 34) & BITS_3_MASK); + decompressed[outOffset+11] = (int) ((s9 >>> 37) & BITS_3_MASK); + decompressed[outOffset+12] = (int) ((s9 >>> 40) & BITS_3_MASK); + decompressed[outOffset+13] = (int) ((s9 >>> 43) & BITS_3_MASK); + decompressed[outOffset+14] = (int) ((s9 >>> 46) & BITS_3_MASK); + decompressed[outOffset+15] = (int) ((s9 >>> 49) & BITS_3_MASK); + decompressed[outOffset+16] = (int) ((s9 >>> 52) & BITS_3_MASK); + decompressed[outOffset+17] = (int) ((s9 >>> 55) & BITS_3_MASK); + decompressed[outOffset+18] = (int) ((s9 >>> 58) & BITS_3_MASK); + decompressed[outOffset+19] = (int) ((s9 >>> 61) & BITS_3_MASK); + return 20; + case STATUS_30NUM_2BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_2_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 6) & BITS_2_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 8) & BITS_2_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 10) & BITS_2_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 12) & BITS_2_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 14) & BITS_2_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 16) & BITS_2_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 18) & BITS_2_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 20) & BITS_2_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 22) & BITS_2_MASK); + decompressed[outOffset+10] = (int) ((s9 >>> 24) & BITS_2_MASK); + decompressed[outOffset+11] = (int) ((s9 >>> 26) & BITS_2_MASK); + decompressed[outOffset+12] = (int) ((s9 >>> 28) & BITS_2_MASK); + decompressed[outOffset+13] = (int) ((s9 >>> 30) & BITS_2_MASK); + decompressed[outOffset+14] = (int) ((s9 >>> 32) & BITS_2_MASK); + decompressed[outOffset+15] = (int) ((s9 >>> 34) & BITS_2_MASK); + decompressed[outOffset+16] = (int) ((s9 >>> 36) & BITS_2_MASK); + decompressed[outOffset+17] = (int) ((s9 >>> 38) & BITS_2_MASK); + decompressed[outOffset+18] = (int) ((s9 >>> 40) & BITS_2_MASK); + decompressed[outOffset+19] = (int) ((s9 >>> 42) & BITS_2_MASK); + decompressed[outOffset+20] = (int) ((s9 >> 44) & BITS_2_MASK); + decompressed[outOffset+21] = (int) ((s9 >>> 46) & BITS_2_MASK); + decompressed[outOffset+22] = (int) ((s9 >>> 48) & BITS_2_MASK); + decompressed[outOffset+23] = (int) ((s9 >>> 50) & BITS_2_MASK); + decompressed[outOffset+24] = (int) ((s9 >>> 52) & BITS_2_MASK); + decompressed[outOffset+25] = (int) ((s9 >>> 54) & BITS_2_MASK); + decompressed[outOffset+26] = (int) ((s9 >>> 56) & BITS_2_MASK); + decompressed[outOffset+27] = (int) ((s9 >>> 58) & BITS_2_MASK); + decompressed[outOffset+28] = (int) ((s9 >>> 60) & BITS_2_MASK); + decompressed[outOffset+29] = (int) ((s9 >>> 62) & BITS_2_MASK); + return 30; + case STATUS_60NUM_1BITS: + decompressed[outOffset] = (int) ((s9 >>> 4) & BITS_1_MASK); + decompressed[outOffset+1] = (int) ((s9 >>> 5) & BITS_1_MASK); + decompressed[outOffset+2] = (int) ((s9 >>> 6) & BITS_1_MASK); + decompressed[outOffset+3] = (int) ((s9 >>> 7) & BITS_1_MASK); + decompressed[outOffset+4] = (int) ((s9 >>> 8) & BITS_1_MASK); + decompressed[outOffset+5] = (int) ((s9 >>> 9) & BITS_1_MASK); + decompressed[outOffset+6] = (int) ((s9 >>> 10) & BITS_1_MASK); + decompressed[outOffset+7] = (int) ((s9 >>> 11) & BITS_1_MASK); + decompressed[outOffset+8] = (int) ((s9 >>> 12) & BITS_1_MASK); + decompressed[outOffset+9] = (int) ((s9 >>> 13) & BITS_1_MASK); + decompressed[outOffset+10] = (int) ((s9 >>> 14) & BITS_1_MASK); + decompressed[outOffset+11] = (int) ((s9 >>> 15) & BITS_1_MASK); + decompressed[outOffset+12] = (int) ((s9 >>> 16) & BITS_1_MASK); + decompressed[outOffset+13] = (int) ((s9 >>> 17) & BITS_1_MASK); + decompressed[outOffset+14] = (int) ((s9 >>> 18) & BITS_1_MASK); + decompressed[outOffset+15] = (int) ((s9 >>> 19) & BITS_1_MASK); + decompressed[outOffset+16] = (int) ((s9 >>> 20) & BITS_1_MASK); + decompressed[outOffset+17] = (int) ((s9 >>> 21) & BITS_1_MASK); + decompressed[outOffset+18] = (int) ((s9 >>> 22) & BITS_1_MASK); + decompressed[outOffset+19] = (int) ((s9 >>> 23) & BITS_1_MASK); + decompressed[outOffset+20] = (int) ((s9 >> 24) & BITS_1_MASK); + decompressed[outOffset+21] = (int) ((s9 >>> 25) & BITS_1_MASK); + decompressed[outOffset+22] = (int) ((s9 >>> 26) & BITS_1_MASK); + decompressed[outOffset+23] = (int) ((s9 >>> 27) & BITS_1_MASK); + decompressed[outOffset+24] = (int) ((s9 >>> 28) & BITS_1_MASK); + decompressed[outOffset+25] = (int) ((s9 >>> 29) & BITS_1_MASK); + decompressed[outOffset+26] = (int) ((s9 >>> 30) & BITS_1_MASK); + decompressed[outOffset+27] = (int) ((s9 >>> 31) & BITS_1_MASK); + decompressed[outOffset+28] = (int) ((s9 >>> 32) & BITS_1_MASK); + decompressed[outOffset+29] = (int) ((s9 >>> 33) & BITS_1_MASK); + decompressed[outOffset+30] = (int) ((s9 >> 34) & BITS_1_MASK); + decompressed[outOffset+31] = (int) ((s9 >>> 35) & BITS_1_MASK); + decompressed[outOffset+32] = (int) ((s9 >>> 36) & BITS_1_MASK); + decompressed[outOffset+33] = (int) ((s9 >>> 37) & BITS_1_MASK); + decompressed[outOffset+34] = (int) ((s9 >>> 38) & BITS_1_MASK); + decompressed[outOffset+35] = (int) ((s9 >>> 39) & BITS_1_MASK); + decompressed[outOffset+36] = (int) ((s9 >>> 40) & BITS_1_MASK); + decompressed[outOffset+37] = (int) ((s9 >>> 41) & BITS_1_MASK); + decompressed[outOffset+38] = (int) ((s9 >>> 42) & BITS_1_MASK); + decompressed[outOffset+39] = (int) ((s9 >>> 43) & BITS_1_MASK); + decompressed[outOffset+40] = (int) ((s9 >>> 44) & BITS_1_MASK); + decompressed[outOffset+41] = (int) ((s9 >>> 45) & BITS_1_MASK); + decompressed[outOffset+42] = (int) ((s9 >>> 46) & BITS_1_MASK); + decompressed[outOffset+43] = (int) ((s9 >>> 47) & BITS_1_MASK); + decompressed[outOffset+44] = (int) ((s9 >>> 48) & BITS_1_MASK); + decompressed[outOffset+45] = (int) ((s9 >>> 49) & BITS_1_MASK); + decompressed[outOffset+46] = (int) ((s9 >>> 50) & BITS_1_MASK); + decompressed[outOffset+47] = (int) ((s9 >>> 51) & BITS_1_MASK); + decompressed[outOffset+48] = (int) ((s9 >>> 52) & BITS_1_MASK); + decompressed[outOffset+49] = (int) ((s9 >>> 53) & BITS_1_MASK); + decompressed[outOffset+50] = (int) ((s9 >> 54) & BITS_1_MASK); + decompressed[outOffset+51] = (int) ((s9 >>> 55) & BITS_1_MASK); + decompressed[outOffset+52] = (int) ((s9 >>> 56) & BITS_1_MASK); + decompressed[outOffset+53] = (int) ((s9 >>> 57) & BITS_1_MASK); + decompressed[outOffset+54] = (int) ((s9 >>> 58) & BITS_1_MASK); + decompressed[outOffset+55] = (int) ((s9 >>> 59) & BITS_1_MASK); + decompressed[outOffset+56] = (int) ((s9 >>> 60) & BITS_1_MASK); + decompressed[outOffset+57] = (int) ((s9 >>> 61) & BITS_1_MASK); + decompressed[outOffset+58] = (int) ((s9 >>> 62) & BITS_1_MASK); + decompressed[outOffset+59] = (int) ((s9 >>> 63) & BITS_1_MASK); + return 60; + default: + throw new IllegalArgumentException("Unknown Simple9 status: " + (s9 >>> NUM_DATA_BITS)); + } + } + + public void compress() { + int encoded; + + compressedSize = 0; + while (unComprSize > 0) { + encoded = compressSingle(unCompressedData, offset, unComprSize, compressedBuffer, compressedSize); + offset += encoded; + unComprSize -= encoded; + compressedSize++; + } + compressedSize <<= 3; + } + + public void decompress() { + int totalOut = 0; + + compressedBuffer.rewind(); + while (unComprSize > 0) { + final int decoded = decompressSingle(compressedBuffer.get(), unCompressedData, totalOut); + unComprSize -= decoded; + totalOut += decoded; + } + } + +} Property changes on: lucene\src\java\org\apache\lucene\index\codecs\simple64\Simple64.java ___________________________________________________________________ Added: svn:eol-style + native Index: lucene/src/java/org/apache/lucene/index/codecs/CodecProvider.java =================================================================== --- lucene/src/java/org/apache/lucene/index/codecs/CodecProvider.java (revision 1066312) +++ lucene/src/java/org/apache/lucene/index/codecs/CodecProvider.java (working copy) @@ -26,6 +26,7 @@ import org.apache.lucene.index.codecs.bulkvint.BulkVIntCodec; import org.apache.lucene.index.codecs.preflex.PreFlexCodec; import org.apache.lucene.index.codecs.pulsing.PulsingCodec; +import org.apache.lucene.index.codecs.simple64.Simple64Codec; import org.apache.lucene.index.codecs.simpletext.SimpleTextCodec; import org.apache.lucene.index.codecs.standard.StandardCodec; import org.apache.lucene.index.codecs.pfordelta.PatchedFrameOfRefCodec; @@ -51,7 +52,7 @@ private final Set knownExtensions = new HashSet(); - public final static String[] CORE_CODECS = new String[] {"Standard", "Pulsing", "PreFlex", "SimpleText", "PatchedFrameOfRef", "FrameOfRef", "PatchedFrameOfRef2", "BulkVInt"}; + public final static String[] CORE_CODECS = new String[] {"Standard", "Pulsing", "PreFlex", "SimpleText", "PatchedFrameOfRef", "FrameOfRef", "PatchedFrameOfRef2", "BulkVInt", "Simple64"}; public synchronized void register(Codec codec) { if (codec.name == null) { @@ -178,5 +179,6 @@ register(new FrameOfRefCodec()); register(new PForDeltaFixedIntBlockCodec(128)); register(new BulkVIntCodec(128)); + register(new Simple64Codec(128)); } }