Exemplo n.º 1
0
 // Estimate the key length after pos slot for schema.
 private static int estimatePartLength(int pos, Iterator<PColumn> iterator) {
   int length = 0;
   while (iterator.hasNext()) {
     PColumn column = iterator.next();
     if (column.getDataType().isFixedWidth()) {
       length += SchemaUtil.getFixedByteSize(column);
     } else {
       length += 1; // SEPARATOR byte.
     }
   }
   return length;
 }
Exemplo n.º 2
0
 // Go through each slot in the schema and try match it with the split byte array. If the split
 // does not confer to the schema, extends its length to match the schema.
 private static byte[] processSplit(byte[] split, LinkedHashSet<PColumn> pkColumns) {
   int pos = 0, offset = 0, maxOffset = split.length;
   Iterator<PColumn> iterator = pkColumns.iterator();
   while (pos < pkColumns.size()) {
     PColumn column = iterator.next();
     if (column.getDataType().isFixedWidth()) { // Fixed width
       int length = SchemaUtil.getFixedByteSize(column);
       if (maxOffset - offset < length) {
         // The split truncates the field. Fill in the rest of the part and any fields that
         // are missing after this field.
         int fillInLength = length - (maxOffset - offset);
         fillInLength += estimatePartLength(pos + 1, iterator);
         return ByteUtil.fillKey(split, split.length + fillInLength);
       }
       // Account for this field, move to next position;
       offset += length;
       pos++;
     } else { // Variable length
       // If we are the last slot, then we are done. Nothing needs to be filled in.
       if (pos == pkColumns.size() - 1) {
         break;
       }
       while (offset < maxOffset && split[offset] != QueryConstants.SEPARATOR_BYTE) {
         offset++;
       }
       if (offset == maxOffset) {
         // The var-length field does not end with a separator and it's not the last field.
         int fillInLength = 1; // SEPARATOR byte for the current var-length slot.
         fillInLength += estimatePartLength(pos + 1, iterator);
         return ByteUtil.fillKey(split, split.length + fillInLength);
       }
       // Move to the next position;
       offset += 1; // skip separator;
       pos++;
     }
   }
   return split;
 }