protected static int decompressBBitSlotsWithHardCodes( final int[] outDecompSlots, final int[] inCompBlock, final int blockSize, final int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(outDecompSlots, inCompBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
static public void unpack(int[] out, int[] in, int bits) { switch (bits) { case 0: unpack0(out, in); break; case 1: unpack1(out, in); break; case 2: unpack2(out, in); break; case 3: unpack3(out, in); break; case 4: unpack4(out, in); break; case 5: unpack5(out, in); break; case 6: unpack6(out, in); break; case 7: unpack7(out, in); break; case 8: unpack8(out, in); break; case 9: unpack9(out, in); break; case 10: unpack10(out, in); break; case 11: unpack11(out, in); break; case 12: unpack12(out, in); break; case 13: unpack13(out, in); break; case 16: unpack16(out, in); break; case 20: unpack20(out, in); break; case 28: unpack28(out, in); break; default: break; } }
static public void unpack(int[] out, int[] in, int bits) { switch (bits) { case 0: unpack0(out, in); break; case 1: unpack1(out, in); break; case 2: unpack2(out, in); break; case 3: unpack3(out, in); break; case 4: unpack4(out, in); break; case 5: unpack5(out, in); break; case 6: unpack6(out, in); break; case 7: unpack7(out, in); break; case 8: unpack8(out, in); break; case 9: unpack9(out, in); break; case 10: unpack10(out, in); break; case 11: unpack11(out, in); break; case 12: unpack12(out, in); break; case 13: unpack13(out, in); break; case 16: unpack16(out, in); break; case 20: unpack20(out, in); break; case 28: unpack28(out, in); break; default: break; } }
static public void unpack(int[] out, int[] in, int bits) { switch (bits) { case 0: unpack0(out, in); break; case 1: unpack1(out, in); break; case 2: unpack2(out, in); break; case 3: unpack3(out, in); break; case 4: unpack4(out, in); break; case 5: unpack5(out, in); break; case 6: unpack6(out, in); break; case 7: unpack7(out, in); break; case 8: unpack8(out, in); break; case 9: unpack9(out, in); break; case 10: unpack10(out, in); break; case 11: unpack11(out, in); break; case 12: unpack12(out, in); break; case 13: unpack13(out, in); break; case 16: unpack16(out, in); break; case 20: unpack20(out, in); break; case 28: unpack28(out, in); break; default: break; } }
protected static int decompressBBitSlotsWithHardCodes( final int[] outDecompSlots, final int[] inCompBlock, final int blockSize, final int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(outDecompSlots, inCompBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
static protected void unpack(int[] out, int[] in, int bits) { switch (bits) { case 0: unpack0(out, in); break; case 1: unpack1(out, in); break; case 2: unpack2(out, in); break; case 3: unpack3(out, in); break; case 4: unpack4(out, in); break; case 5: unpack5(out, in); break; case 6: unpack6(out, in); break; case 7: unpack7(out, in); break; case 8: unpack8(out, in); break; case 9:
public int decompressBBitSlotsWithHardCodes(final int[] outDecompSlots, final int[] inCompBlock, final int blockSize, final int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(outDecompSlots, inCompBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
static protected void unpack(int[] out, int[] in, int bits) { switch (bits) { case 0: unpack0(out, in); break; case 1: unpack1(out, in); break; case 2: unpack2(out, in); break; case 3: unpack3(out, in); break; case 4: unpack4(out, in); break; case 5: unpack5(out, in); break; case 6: unpack6(out, in); break; case 7: unpack7(out, in); break; case 8: unpack8(out, in); break; case 9:
public int decompressBBitSlotsWithHardCodes(final int[] outDecompSlots, final int[] inCompBlock, final int blockSize, final int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(outDecompSlots, inCompBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
/** * Decompress the b-bit slots using hardcoded unpack methods * * @param decompressedSlots the decompressed output * @param compBlock the compressed input block * @param blockSize the block size which is 256 by default * @param bits the value of b * @return the processed data size (the number of bits in the compressed form) */ static int decompressBBitSlotsWithHardCodes(int[] decompressedSlots, int[] compBlock, int blockSize, int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(decompressedSlots, compBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
/** * Decompress the b-bit slots using hardcoded unpack methods * * @param decompressedSlots the decompressed output * @param compBlock the compressed input block * @param blockSize the block size which is 256 by default * @param bits the value of b * @return the processed data size (the number of bits in the compressed form) */ private int decompressBBitSlotsWithHardCodes(int[] decompressedSlots, int[] compBlock, int blockSize, int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(decompressedSlots, compBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
/** * Decompress the b-bit slots using hardcoded unpack methods * * @param decompressedSlots the decompressed output * @param compBlock the compressed input block * @param blockSize the block size which is 256 by default * @param bits the value of b * @return the processed data size (the number of bits in the compressed form) */ static int decompressBBitSlotsWithHardCodes(int[] decompressedSlots, int[] compBlock, int blockSize, int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(decompressedSlots, compBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
/** * Decompress the b-bit slots using hardcoded unpack methods * * @param decompressedSlots * the decompressed output * @param compBlock * the compressed input block * @param blockSize * the block size which is 256 by default * @param bits * the value of b * @return the processed data size (the number of bits in the compressed * form) */ static int decompressBBitSlotsWithHardCodes(int[] decompressedSlots, int[] compBlock, int blockSize, int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(decompressedSlots, compBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }
/** * Decompress the b-bit slots using hardcoded unpack methods * * @param decompressedSlots * the decompressed output * @param compBlock * the compressed input block * @param blockSize * the block size which is 256 by default * @param bits * the value of b * @return the processed data size (the number of bits in the compressed * form) */ static int decompressBBitSlotsWithHardCodes(int[] decompressedSlots, int[] compBlock, int blockSize, int bits) { int compressedBitSize = 0; PForDeltaUnpack128.unpack(decompressedSlots, compBlock, bits); compressedBitSize = bits * blockSize; return compressedBitSize; }