FunctionColumn::FunctionColumn( const FunctionColumn& rhs, const uint32_t sessionID):
    ReturnedColumn(rhs, sessionID),
    fFunctionName(rhs.functionName()),
    fTableAlias (rhs.tableAlias()),
    fData (rhs.data()),
    fFunctor(rhs.fFunctor)
{
    fFunctionParms.clear();
    fSimpleColumnList.clear();
    fAggColumnList.clear();
    fWindowFunctionColumnList.clear();

    SPTP pt;

    for (uint32_t i = 0; i < rhs.fFunctionParms.size(); i++)
    {
        pt.reset(new ParseTree (*(rhs.fFunctionParms[i])));
        fFunctionParms.push_back(pt);
        pt->walk(getSimpleCols, &fSimpleColumnList);
        pt->walk(getAggCols, &fAggColumnList);
        pt->walk(getWindowFunctionCols, &fWindowFunctionColumnList);
    }

    fAlias = rhs.alias();
}
Beispiel #2
0
void VirtualTable::addColumn(const SRCP& column)
{
	// As of bug3695, make sure varbinary is not used in subquery.
	if (column->resultType().colDataType == CalpontSystemCatalog::VARBINARY && !fVarBinOK)
		throw runtime_error ("VARBINARY in subquery is not supported.");

	AggregateColumn*      agc = NULL;
	ArithmeticColumn*     arc = NULL;
	ConstantColumn*       cc  = NULL;
	FunctionColumn*       fc  = NULL;
	SimpleColumn*         sc  = NULL;
	WindowFunctionColumn* wc  = NULL;

	string columnName;
	ostringstream oss;
	UniqId colId;
	if ((sc = dynamic_cast<SimpleColumn*>(column.get())) != NULL)
	{
		columnName = sc->columnName();
		colId = UniqId(sc);
	}
	else if ((agc = dynamic_cast<AggregateColumn*>(column.get())) != NULL)
	{
//		oss << agc->functionName() << "_" << agc->expressionId();
//		oss << "Aggregate_" << agc->expressionId();
		columnName = agc->data();
		colId = UniqId(agc->expressionId(), "", "", "");
	}
	else if ((wc = dynamic_cast<WindowFunctionColumn*>(column.get())) != NULL)
	{
//		oss << wc->functionName() << "_" << wc->expressionId();
//		oss << "Window_" << wc->expressionId();
		columnName = wc->data();
		colId = UniqId(wc->expressionId(), "", "", "");
	}
	else if ((arc = dynamic_cast<ArithmeticColumn*>(column.get())) != NULL)
	{
//		oss << "Arithmetic_" << arc->expressionId();
		columnName = arc->data();
		colId = UniqId(arc->expressionId(), "", "", "");
	}
	else if ((fc = dynamic_cast<FunctionColumn*>(column.get())) != NULL)
	{
//		oss << fc->functionName() << "_" << fc->expressionId();
		columnName = fc->data();
		colId = UniqId(fc->expressionId(), "", "", "");
	}
	else if ((cc = dynamic_cast<ConstantColumn*>(column.get())) != NULL)
	{
//		oss << "Constant_" << cc->expressionId();
		columnName = cc->data();
		colId = UniqId(cc->expressionId(), cc->alias(), "", fView);
	}
	else // new column type has added, but this code is not updated.
	{
		oss << "not supported column type: " << typeid(*(column.get())).name();
		throw runtime_error(oss.str());
	}

	if (columnName.empty())
		columnName = column->alias();

	SimpleColumn* vc = new SimpleColumn();
	vc->tableName(fName);
	vc->tableAlias(fAlias);
	vc->columnName(columnName);
	vc->alias(column->alias());
	vc->viewName(fView);

	uint32_t index = fColumns.size();
	vc->colPosition(index);
	vc->oid(fTableOid+index+1);
	vc->resultType(column->resultType());

	SSC ssc(vc);
	fColumns.push_back(ssc);
	fColumnTypes.push_back(column->resultType());
	fColumnMap.insert(make_pair(colId, index));
}