mariadb-columnstore-engine/dbcon/mysql/ha_scalar_sub.cpp

/* Copyright (C) 2014 InfiniDB, Inc.
   Copyright (C) 2016 MariaDB Corporation

   This program is free software; you can redistribute it and/or
   modify it under the terms of the GNU General Public License
   as published by the Free Software Foundation; version 2 of
   the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
   MA 02110-1301, USA. */

/***********************************************************************
*   $Id: ha_scalar_sub.cpp 6418 2010-03-29 21:55:08Z zzhu $
*
*
***********************************************************************/
/** @file */
/** class ScalarSub definition */

//#define NDEBUG
#define PREFER_MY_CONFIG_H
#include <my_config.h>
#include <cassert>
#include <vector>
using namespace std;

#include "idb_mysql.h"

#include "parsetree.h"
#include "logicoperator.h"
#include "selectfilter.h"
#include "simplescalarfilter.h"
#include "predicateoperator.h"
#include "rowcolumn.h"
#include "simplecolumn.h"
#include "simplefilter.h"
#include "constantcolumn.h"
using namespace execplan;

#include "errorids.h"
using namespace logging;

#include "ha_subquery.h"

namespace cal_impl_if
{
ScalarSub::ScalarSub(gp_walk_info& gwip) : WhereSubQuery(gwip), fReturnedColPos(0)
{}

ScalarSub::ScalarSub(gp_walk_info& gwip, Item_func* func) :
    WhereSubQuery(gwip, func), fReturnedColPos(0)
{}

ScalarSub::ScalarSub(gp_walk_info& gwip, const execplan::SRCP& column, Item_subselect* sub, Item_func* func):
    WhereSubQuery(gwip, column, sub, func), fReturnedColPos(0)
{}

ScalarSub::ScalarSub(const ScalarSub& rhs) :
    WhereSubQuery(rhs.gwip(), rhs.fColumn, rhs.fSub, rhs.fFunc),
    fReturnedColPos(rhs.fReturnedColPos)
{}

ScalarSub::~ScalarSub()
{}

execplan::ParseTree* ScalarSub::transform()
{
    if (!fFunc)
        return NULL;

    // @todo need to handle scalar IN and BETWEEN specially
    // this blocks handles only one subselect scalar
    // arg[0]: column | arg[1]: subselect
    //idbassert(fGwip.rcWorkStack.size() >= 2);
    if (fFunc->functype() == Item_func::BETWEEN)
        return transform_between();

    if (fFunc->functype() == Item_func::IN_FUNC)
        return transform_in();

    ReturnedColumn* rhs = NULL;
    ReturnedColumn* lhs = NULL;

    if (!fGwip.rcWorkStack.empty())
    {
        rhs = fGwip.rcWorkStack.top();
        fGwip.rcWorkStack.pop();
    }

    if (!fGwip.rcWorkStack.empty())
    {
        lhs = fGwip.rcWorkStack.top();
        fGwip.rcWorkStack.pop();
    }

    PredicateOperator* op = new PredicateOperator(fFunc->func_name());

    if (!lhs && (fFunc->functype() == Item_func::ISNULL_FUNC ||
                 fFunc->functype() == Item_func::ISNOTNULL_FUNC))
    {
        fSub = (Item_subselect*)(fFunc->arguments()[0]);
        fColumn.reset(new ConstantColumn("", ConstantColumn::NULLDATA));
        (dynamic_cast<ConstantColumn*>(fColumn.get()))->timeZone(fGwip.thd->variables.time_zone->get_name()->ptr());
        delete rhs;
        return buildParseTree(op);
    }

    bool reverseOp = false;
    SubSelect* sub = dynamic_cast<SubSelect*>(rhs);

    if (!sub)
    {
        reverseOp = true;
        delete lhs;
        lhs = rhs;
        fSub = (Item_subselect*)(fFunc->arguments()[0]);
    }
    else
    {
        delete rhs;
        fSub = (Item_subselect*)(fFunc->arguments()[1]);
    }

    fColumn.reset(lhs); // column should be in the stack already. in, between may be different

    //PredicateOperator *op = new PredicateOperator(fFunc->func_name());
    if (reverseOp)
        op->reverseOp();

    return buildParseTree(op);
}

execplan::ParseTree* ScalarSub::transform_between()
{
    //idbassert(fGwip.rcWorkStack.size() >= 3);
    if (fGwip.rcWorkStack.size() < 3)
    {
        fGwip.fatalParseError = true;
        fGwip.parseErrorText = IDBErrorInfo::instance()->errorMsg(ERR_NON_SUPPORT_SCALAR);
        return NULL;
    }

    ReturnedColumn* op3 = fGwip.rcWorkStack.top();
    fGwip.rcWorkStack.pop();
    ReturnedColumn* op2 = fGwip.rcWorkStack.top();
    fGwip.rcWorkStack.pop();
    ReturnedColumn* op1 = fGwip.rcWorkStack.top();
    fGwip.rcWorkStack.pop();
    fColumn.reset(op1);

    ParseTree* lhs = NULL;
    ParseTree* rhs = NULL;
    PredicateOperator* op_LE = new PredicateOperator("<=");
    PredicateOperator* op_GE = new PredicateOperator(">=");

    SubSelect* sub2 = dynamic_cast<SubSelect*>(op3);
    fSub = (Item_subselect*)(fFunc->arguments()[2]);

    if (sub2)
    {
        rhs = buildParseTree(op_LE);
        delete sub2;
    }
    else
    {
        SOP sop;
        sop.reset(op_LE);
        rhs = new ParseTree(new SimpleFilter(sop, fColumn.get(), op3));
        (dynamic_cast<SimpleFilter*>(rhs->data()))->timeZone(fGwip.thd->variables.time_zone->get_name()->ptr());
    }

    SubSelect* sub1 = dynamic_cast<SubSelect*>(op2);
    fSub = (Item_subselect*)(fFunc->arguments()[1]);

    if (sub1)
    {
        lhs = buildParseTree(op_GE);
        delete sub1;
    }
    else
    {
        SOP sop;
        sop.reset(op_GE);
        lhs = new ParseTree(new SimpleFilter(sop, fColumn.get(), op2));
        (dynamic_cast<SimpleFilter*>(lhs->data()))->timeZone(fGwip.thd->variables.time_zone->get_name()->ptr());
    }

    if (!rhs || !lhs)
    {
        fGwip.fatalParseError = true;
        fGwip.parseErrorText = "non-supported scalar subquery";
        fGwip.parseErrorText = IDBErrorInfo::instance()->errorMsg(ERR_NON_SUPPORT_SCALAR);
        return NULL;
    }

    ParseTree* pt = new ParseTree (new LogicOperator("and"));
    pt->left(lhs);
    pt->right(rhs);
    return pt;
}

execplan::ParseTree* ScalarSub::transform_in()
{
    fGwip.fatalParseError = true;
    fGwip.parseErrorText = IDBErrorInfo::instance()->errorMsg(ERR_NON_SUPPORT_SCALAR);
    return NULL;
}

execplan::ParseTree* ScalarSub::buildParseTree(PredicateOperator* op)
{
    idbassert(fColumn.get() && fSub && fFunc);

    vector<SRCP> cols;
    Filter* filter;
    RowColumn* rcol = dynamic_cast<RowColumn*>(fColumn.get());

    if (rcol)
    {
        // IDB only supports (c1,c2..) =/!= (subquery)
        if (fFunc->functype() != Item_func::EQ_FUNC && fFunc->functype() != Item_func::NE_FUNC)
        {
            fGwip.fatalParseError = true;
            fGwip.parseErrorText = IDBErrorInfo::instance()->errorMsg(ERR_INVALID_OPERATOR_WITH_LIST);
            return NULL;
        }

        cols = rcol->columnVec();
    }
    else
        cols.push_back(fColumn);

    SCSEP csep(new CalpontSelectExecutionPlan());
    csep->sessionID(fGwip.sessionid);
    csep->location(CalpontSelectExecutionPlan::WHERE);
    csep->subType (CalpontSelectExecutionPlan::SINGLEROW_SUBS);

    // gwi for the sub query
    gp_walk_info gwi;
    gwi.thd = fGwip.thd;
    gwi.subQuery = this;

    // @4827 merge table list to gwi in case there is FROM sub to be referenced
    // in the FROM sub
    gwi.derivedTbCnt = fGwip.derivedTbList.size();
    uint32_t tbCnt = fGwip.tbList.size();

    gwi.tbList.insert(gwi.tbList.begin(), fGwip.tbList.begin(), fGwip.tbList.end());
    gwi.derivedTbList.insert(gwi.derivedTbList.begin(), fGwip.derivedTbList.begin(), fGwip.derivedTbList.end());

    if (getSelectPlan(gwi, *(fSub->get_select_lex()), csep, false) != 0)
    {
        //@todo more in error handling
        if (!gwi.fatalParseError)
        {
            fGwip.fatalParseError = true;
            fGwip.parseErrorText = "Error occured in ScalarSub::transform()";
        }
        else
        {
            fGwip.fatalParseError = gwi.fatalParseError;
            fGwip.parseErrorText = gwi.parseErrorText;
        }

        return NULL;
    }

    fGwip.subselectList.push_back(csep);

    // error out non-support case for now: comparison out of semi join tables.
    // only check for simplecolumn
    if (!gwi.correlatedTbNameVec.empty())
    {
        for (uint32_t i = 0; i < cols.size(); i++)
        {
            SimpleColumn* sc = dynamic_cast<SimpleColumn*>(cols[i].get());

            if (sc)
            {
                CalpontSystemCatalog::TableAliasName tan = make_aliastable(sc->schemaName(), sc->tableName(), sc->tableAlias());
                uint32_t j = 0;

                for (; j < gwi.correlatedTbNameVec.size(); j++)
                    if (tan == gwi.correlatedTbNameVec[j])
                        break;

                if (j == gwi.correlatedTbNameVec.size())
                {
                    fGwip.fatalParseError = true;
                    fGwip.parseErrorText = IDBErrorInfo::instance()->errorMsg(ERR_NON_SUPPORT_SCALAR);
                    return NULL;
                }
            }
        }
    }

    // remove outer query tables
    CalpontSelectExecutionPlan::TableList tblist;

    if (csep->tableList().size() >= tbCnt)
        tblist.insert(tblist.begin(), csep->tableList().begin() + tbCnt, csep->tableList().end());

    CalpontSelectExecutionPlan::SelectList derivedTbList;

    if (csep->derivedTableList().size() >= gwi.derivedTbCnt)
        derivedTbList.insert(derivedTbList.begin(), csep->derivedTableList().begin() + gwi.derivedTbCnt, csep->derivedTableList().end());

    csep->tableList(tblist);
    csep->derivedTableList(derivedTbList);

//	if (fSub->is_correlated)
    if (fSub->unit->first_select()->master_unit()->uncacheable)
    {
        SelectFilter* subFilter = new SelectFilter();
        subFilter->correlated(true);
        subFilter->cols(cols);
        subFilter->sub(csep);
        subFilter->op(SOP(op));
        subFilter->returnedColPos(fReturnedColPos);
        filter = subFilter;
    }
    else
    {
        SimpleScalarFilter* subFilter = new SimpleScalarFilter();
        subFilter->cols(cols);
        subFilter->sub(csep);
        subFilter->op(SOP(op));
        filter = subFilter;
    }

    return new ParseTree(filter);

}

}