Exemplo n.º 1
0
 /** Adds invalid value to the column. */
 public void addInvalidCol(int colIdx) {
   ++_colIdx;
   if (colIdx >= _ncolumns) return;
   ++_invalidValues[colIdx];
   if (_phase == Pass.ONE) return;
   switch (_colTypes[colIdx]) {
     case BYTE:
     case DBYTE:
       _ab.put1(-1);
       break;
     case SHORT:
     case DSHORT:
       _ab.put2((short) -1);
       break;
     case INT:
       _ab.put4(Integer.MIN_VALUE);
       break;
     case LONG:
       _ab.put8(Long.MIN_VALUE);
       break;
     case FLOAT:
       _ab.put4f(Float.NaN);
       break;
     case DOUBLE:
       _ab.put8d(Double.NaN);
       break;
     case STRINGCOL:
       // TODO, replace with empty space!
       _ab.put1(-1);
       break;
     default:
       assert false : "illegal case: " + _colTypes[colIdx];
   }
 }
Exemplo n.º 2
0
 @SuppressWarnings("fallthrough")
 public void addNumCol(int colIdx, long number, int exp) {
   ++_colIdx;
   if (colIdx >= _ncolumns) return;
   switch (_phase) {
     case ONE:
       double d = number * pow10(exp);
       if (d < _min[colIdx]) _min[colIdx] = d;
       if (d > _max[colIdx]) _max[colIdx] = d;
       _mean[colIdx] += d;
       if (exp != 0) {
         if (exp < _scale[colIdx]) _scale[colIdx] = exp;
         if (_colTypes[colIdx] != DCOL) {
           if (Math.abs(number) > MAX_FLOAT_MANTISSA || exp < -35 || exp > 35)
             _colTypes[colIdx] = DCOL;
           else _colTypes[colIdx] = FCOL;
         }
       } else if (_colTypes[colIdx] < ICOL) {
         _colTypes[colIdx] = ICOL;
       }
       break;
     case TWO:
       switch (_colTypes[colIdx]) {
         case BYTE:
           _ab.put1((byte) (number * pow10i(exp - _scale[colIdx]) - _bases[colIdx]));
           break;
         case SHORT:
           _ab.put2((short) (number * pow10i(exp - _scale[colIdx]) - _bases[colIdx]));
           break;
         case INT:
           _ab.put4((int) (number * pow10i(exp - _scale[colIdx]) - _bases[colIdx]));
           break;
         case LONG:
           _ab.put8(number * pow10i(exp - _scale[colIdx]));
           break;
         case FLOAT:
           _ab.put4f((float) (number * pow10(exp)));
           break;
         case DOUBLE:
           _ab.put8d(number * pow10(exp));
           break;
         case DBYTE:
           _ab.put1((short) (number * pow10i(exp - _scale[colIdx]) - _bases[colIdx]));
           break;
         case DSHORT:
           // scale is computed as negative in the first pass,
           // therefore to compute the positive exponent after scale, we add scale and the original
           // exponent
           _ab.put2((short) (number * pow10i(exp - _scale[colIdx]) - _bases[colIdx]));
           break;
         case STRINGCOL:
           break;
       }
       // update sigma
       if (!Double.isNaN(_mean[colIdx])) {
         d = number * pow10(exp) - _mean[colIdx];
         _sigma[colIdx] += d * d;
       }
       break;
     default:
       assert (false);
   }
 }