//--------------------------------------------------------------------------- // Greenplum Database // Copyright (C) 2011 EMC Corp. // // @filename: // CPhysicalComputeScalar.h // // @doc: // ComputeScalar operator //--------------------------------------------------------------------------- #ifndef GPOPT_CPhysicalComputeScalar_H #define GPOPT_CPhysicalComputeScalar_H #include "gpos/base.h" #include "gpopt/operators/CPhysical.h" namespace gpopt { //--------------------------------------------------------------------------- // @class: // CPhysicalComputeScalar // // @doc: // ComputeScalar operator // //--------------------------------------------------------------------------- class CPhysicalComputeScalar : public CPhysical { private: public: CPhysicalComputeScalar(const CPhysicalComputeScalar &) = delete; // ctor explicit CPhysicalComputeScalar(CMemoryPool *mp); // dtor ~CPhysicalComputeScalar() override; // ident accessors EOperatorId Eopid() const override { return EopPhysicalComputeScalar; } const CHAR * SzId() const override { return "CPhysicalComputeScalar"; } // match function BOOL Matches(COperator *) const override; // sensitivity to order of inputs BOOL FInputOrderSensitive() const override { return true; } //------------------------------------------------------------------------------------- // Required Plan Properties //------------------------------------------------------------------------------------- // compute required output columns of the n-th child CColRefSet *PcrsRequired(CMemoryPool *mp, CExpressionHandle &exprhdl, CColRefSet *pcrsRequired, ULONG child_index, CDrvdPropArray *pdrgpdpCtxt, ULONG ulOptReq) override; // compute required ctes of the n-th child CCTEReq *PcteRequired(CMemoryPool *mp, CExpressionHandle &exprhdl, CCTEReq *pcter, ULONG child_index, CDrvdPropArray *pdrgpdpCtxt, ULONG ulOptReq) const override; // compute required sort order of the n-th child COrderSpec *PosRequired(CMemoryPool *mp, CExpressionHandle &exprhdl, COrderSpec *posRequired, ULONG child_index, CDrvdPropArray *pdrgpdpCtxt, ULONG ulOptReq) const override; // compute required distribution of the n-th child CDistributionSpec *PdsRequired(CMemoryPool *mp, CExpressionHandle &exprhdl, CDistributionSpec *pdsRequired, ULONG child_index, CDrvdPropArray *pdrgpdpCtxt, ULONG ulOptReq) const override; // compute required rewindability of the n-th child CRewindabilitySpec *PrsRequired(CMemoryPool *mp, CExpressionHandle &exprhdl, CRewindabilitySpec *prsRequired, ULONG child_index, CDrvdPropArray *pdrgpdpCtxt, ULONG ulOptReq) const override; // check if required columns are included in output columns BOOL FProvidesReqdCols(CExpressionHandle &exprhdl, CColRefSet *pcrsRequired, ULONG ulOptReq) const override; //------------------------------------------------------------------------------------- // Derived Plan Properties //------------------------------------------------------------------------------------- // derive sort order COrderSpec *PosDerive(CMemoryPool *mp, CExpressionHandle &exprhdl) const override; // derive distribution CDistributionSpec *PdsDerive(CMemoryPool *mp, CExpressionHandle &exprhdl) const override; // derive rewindability CRewindabilitySpec *PrsDerive(CMemoryPool *mp, CExpressionHandle &exprhdl) const override; //------------------------------------------------------------------------------------- // Enforced Properties //------------------------------------------------------------------------------------- // return order property enforcing type for this operator CEnfdProp::EPropEnforcingType EpetOrder( CExpressionHandle &exprhdl, const CEnfdOrder *peo) const override; // return rewindability property enforcing type for this operator CEnfdProp::EPropEnforcingType EpetRewindability( CExpressionHandle &, // exprhdl const CEnfdRewindability * // per ) const override; // return true if operator passes through stats obtained from children, // this is used when computing stats during costing BOOL FPassThruStats() const override { return false; } //------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------- // conversion function static CPhysicalComputeScalar * PopConvert(COperator *pop) { GPOS_ASSERT(nullptr != pop); GPOS_ASSERT(EopPhysicalComputeScalar == pop->Eopid()); return dynamic_cast(pop); } }; // class CPhysicalComputeScalar } // namespace gpopt #endif // !GPOPT_CPhysicalComputeScalar_H // EOF