Value getMergedValue(Database database, boolean distinct) { if (distinct) { count = 0; groupDistinct(database); } Value v = null; switch (aggregateType) { case Aggregate.COUNT: case Aggregate.COUNT_ALL: v = ValueLong.get(count); break; case Aggregate.SUM: case Aggregate.MIN: case Aggregate.MAX: case Aggregate.BOOL_OR: case Aggregate.BOOL_AND: v = value; break; case Aggregate.AVG: case Aggregate.STDDEV_POP: case Aggregate.STDDEV_SAMP: case Aggregate.VAR_POP: case Aggregate.VAR_SAMP: return value == null ? ValueNull.INSTANCE : value; case Aggregate.SELECTIVITY: if (value != null) { v = divide(value, count); } break; case Aggregate.GROUP_CONCAT: return null; case Aggregate.HISTOGRAM: ValueArray[] values = new ValueArray[distinctValues.size()]; int i = 0; for (Value dv : distinctValues.keys()) { AggregateData d = distinctValues.get(dv); values[i] = ValueArray.get(new Value[] {dv, ValueLong.get(d.count)}); i++; } final CompareMode compareMode = database.getCompareMode(); Arrays.sort( values, new Comparator<ValueArray>() { public int compare(ValueArray v1, ValueArray v2) { Value a1 = v1.getList()[0]; Value a2 = v2.getList()[0]; return a1.compareTo(a2, compareMode); } }); v = ValueArray.get(values); break; default: DbException.throwInternalError("type=" + aggregateType); } return v == null ? ValueNull.INSTANCE : v.convertTo(dataType); }
/** * Get the aggregate result. * * @param database the database * @param distinct if distinct is used * @return the value */ Value getValue(Database database, boolean distinct) { if (distinct) { count = 0; groupDistinct(database); } Value v = null; switch (aggregateType) { case Aggregate.SELECTIVITY: { int s = 0; if (count == 0) { s = 0; } else { m2 += distinctHashes.size(); m2 = 100 * m2 / count; s = (int) m2; s = s <= 0 ? 1 : s > 100 ? 100 : s; } v = ValueInt.get(s); break; } case Aggregate.COUNT: case Aggregate.COUNT_ALL: v = ValueLong.get(count); break; case Aggregate.SUM: case Aggregate.MIN: case Aggregate.MAX: case Aggregate.BOOL_OR: case Aggregate.BOOL_AND: v = value; break; case Aggregate.AVG: if (value != null) { v = divide(value, count); } break; case Aggregate.GROUP_CONCAT: return null; case Aggregate.STDDEV_POP: { if (count < 1) { return ValueNull.INSTANCE; } v = ValueDouble.get(Math.sqrt(m2 / count)); break; } case Aggregate.STDDEV_SAMP: { if (count < 2) { return ValueNull.INSTANCE; } v = ValueDouble.get(Math.sqrt(m2 / (count - 1))); break; } case Aggregate.VAR_POP: { if (count < 1) { return ValueNull.INSTANCE; } v = ValueDouble.get(m2 / count); break; } case Aggregate.VAR_SAMP: { if (count < 2) { return ValueNull.INSTANCE; } v = ValueDouble.get(m2 / (count - 1)); break; } case Aggregate.HISTOGRAM: ValueArray[] values = new ValueArray[distinctValues.size()]; int i = 0; for (Value dv : distinctValues.keys()) { AggregateData d = distinctValues.get(dv); values[i] = ValueArray.get(new Value[] {dv, ValueLong.get(d.count)}); i++; } final CompareMode compareMode = database.getCompareMode(); Arrays.sort( values, new Comparator<ValueArray>() { public int compare(ValueArray v1, ValueArray v2) { Value a1 = v1.getList()[0]; Value a2 = v2.getList()[0]; return a1.compareTo(a2, compareMode); } }); v = ValueArray.get(values); break; default: DbException.throwInternalError("type=" + aggregateType); } return v == null ? ValueNull.INSTANCE : v.convertTo(dataType); }