if (includesTags()) { decodeTags(); if (includesMvcc()) { current.memstoreTS = ByteBuff.readVLong(currentBuffer); } else {
if (includesTags()) { decodeTags(); if (includesMvcc()) { current.memstoreTS = ByteBuff.readVLong(currentBuffer); } else {
if (includesTags()) { decodeTags(); if (includesMvcc()) { current.memstoreTS = ByteBufferUtils.readVLong(currentBuffer); } else {
if (includesTags()) { decodeTags(); if (includesMvcc()) { current.memstoreTS = ByteBuff.readVLong(currentBuffer); } else {
@Override protected void decodeNext() { decode(false); }
@Override protected void decodeNext() { decode(false); }
@Override protected void decodeNext() { decode(false); }
@Override protected void decodeFirst() { ByteBufferUtils.skip(currentBuffer, Bytes.SIZEOF_INT); decode(true); }
@Override protected FastDiffSeekerState createSeekerState() { return new FastDiffSeekerState(this.tmpPair, this.includesTags()); } };
@Override protected void decodeFirst() { currentBuffer.skip(Bytes.SIZEOF_INT); decode(true); }
@Override protected void decodeNext() { decode(false); }
@Override protected FastDiffSeekerState createSeekerState() { return new FastDiffSeekerState(this.tmpPair, this.includesTags()); } };
@Override protected void decodeFirst() { ByteBufferUtils.skip(currentBuffer, Bytes.SIZEOF_INT); decode(true); }
@Override protected void decodeFirst() { currentBuffer.skip(Bytes.SIZEOF_INT); decode(true); }
@Override protected void decodeNext() { decode(false); }
@Override protected FastDiffSeekerState createSeekerState() { return new FastDiffSeekerState(this.tmpPair, this.includesTags()); } };
@Override protected void decodeFirst() { currentBuffer.skip(Bytes.SIZEOF_INT); decode(true); }