relational_operators/SelectOperator.hpp - incubator-retired-quickstep - Git at Google

 /**
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  **/

 #ifndef QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_
 #define QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_

 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "catalog/CatalogRelation.hpp"
 #include "catalog/CatalogTypedefs.hpp"

 #ifdef QUICKSTEP_HAVE_LIBNUMA
 #include "catalog/NUMAPlacementScheme.hpp"
 #endif

 #include "catalog/PartitionSchemeHeader.hpp"
 #include "query_execution/QueryContext.hpp"
 #include "relational_operators/RelationalOperator.hpp"
 #include "relational_operators/WorkOrder.hpp"
 #include "storage/StorageBlockInfo.hpp"
 #include "utility/Macros.hpp"
 #include "utility/lip_filter/LIPFilterAdaptiveProber.hpp"

 #include "glog/logging.h"

 #include "tmb/id_typedefs.h"

 namespace tmb { class MessageBus; }

 namespace quickstep {

 class CatalogRelationSchema;
 class InsertDestination;
 class LIPFilterDeployment;
 class Predicate;
 class Scalar;
 class StorageManager;
 class WorkOrderProtosContainer;
 class WorkOrdersContainer;

 namespace serialization { class WorkOrder; }

 /** \addtogroup RelationalOperators
  *  @{
  */

 /**
  * @brief An operator which performs simple selection over a relation.
  **/
 class SelectOperator : public RelationalOperator {
  public:
   /**
    * @brief Constructor for selection with arbitrary expressions in projection
    *        list.
    *
    * @param query_id The ID of the query to which this operator belongs.
    * @param input_relation The relation to perform selection over.
    * @param output_relation The output relation.
    * @param output_destination_index The index of the InsertDestination in the
    *        QueryContext to insert the selection results.
    * @param predicate_index The index of selection predicate in QueryContext.
    *        All tuples matching pred will be selected (or kInvalidPredicateId to
    *        select all tuples).
    * @param selection_index The group index of Scalars in QueryContext, which
    *        will be evaluated to project input tuples.
    * @param input_relation_is_stored If input_relation is a stored relation and
    *        is fully available to the operator before it can start generating
    *        workorders.
    * @param num_partitions The number of partitions in 'input_relation'.
    *        If no partitions, it is one.
    **/
   SelectOperator(
       const std::size_t query_id,
       const CatalogRelation &input_relation,
       const CatalogRelation &output_relation,
       const QueryContext::insert_destination_id output_destination_index,
       const QueryContext::predicate_id predicate_index,
       const QueryContext::scalar_group_id selection_index,
       const bool input_relation_is_stored,
       const std::size_t num_partitions)
       : RelationalOperator(query_id),
         input_relation_(input_relation),
         output_relation_(output_relation),
         output_destination_index_(output_destination_index),
         predicate_index_(predicate_index),
         selection_index_(selection_index),
         num_partitions_(num_partitions),
         input_relation_block_ids_(num_partitions),
         num_workorders_generated_(num_partitions),
         simple_projection_(false),
         input_relation_is_stored_(input_relation_is_stored),
         started_(false) {
 #ifdef QUICKSTEP_HAVE_LIBNUMA
     placement_scheme_ = input_relation.getNUMAPlacementSchemePtr();
 #endif
     if (input_relation_is_stored) {
       if (input_relation.hasPartitionScheme()) {
         const PartitionScheme &part_scheme = *input_relation.getPartitionScheme();

         for (std::size_t part_id = 0; part_id < num_partitions_; ++part_id) {
           input_relation_block_ids_[part_id] = part_scheme.getBlocksInPartition(part_id);
         }
       } else {
         input_relation_block_ids_[0] = input_relation.getBlocksSnapshot();
       }
     }
   }

   /**
    * @brief Constructor for selection with simple projection of attributes.
    *
    * @note selection_index_ is invalid, and will not be used for projection.
    *
    * @param query_id The ID of the query to which this operator belongs.
    * @param input_relation The relation to perform selection over.
    * @param output_relation The output relation.
    * @param output_destination_index The index of the InsertDestination in the
    *        QueryContext to insert the selection results.
    * @param selection A projection list of attribute IDs. The operator takes
    *        ownership of selection.
    * @param predicate_index The index of selection predicate in QueryContext.
    *        All tuples matching pred will be selected (or kInvalidPredicateId to
    *        select all tuples).
    * @param input_relation_is_stored If input_relation is a stored relation and
    *        is fully available to the operator before it can start generating
    *        workorders.
    * @param num_partitions The number of partitions in 'input_relation'.
    *        If no partitions, it is one.
    **/
   SelectOperator(
       const std::size_t query_id,
       const CatalogRelation &input_relation,
       const CatalogRelation &output_relation,
       const QueryContext::insert_destination_id output_destination_index,
       const QueryContext::predicate_id predicate_index,
       std::vector<attribute_id> &&selection,
       const bool input_relation_is_stored,
       const std::size_t num_partitions)
       : RelationalOperator(query_id),
         input_relation_(input_relation),
         output_relation_(output_relation),
         output_destination_index_(output_destination_index),
         predicate_index_(predicate_index),
         selection_index_(QueryContext::kInvalidScalarGroupId),
         simple_selection_(std::move(selection)),
         num_partitions_(num_partitions),
         input_relation_block_ids_(num_partitions),
         num_workorders_generated_(num_partitions),
         simple_projection_(true),
         input_relation_is_stored_(input_relation_is_stored),
         started_(false) {
 #ifdef QUICKSTEP_HAVE_LIBNUMA
     placement_scheme_ = input_relation.getNUMAPlacementSchemePtr();
 #endif
     if (input_relation_is_stored) {
       if (input_relation.hasPartitionScheme()) {
         const PartitionScheme &part_scheme = *input_relation.getPartitionScheme();

         for (std::size_t part_id = 0; part_id < num_partitions_; ++part_id) {
           input_relation_block_ids_[part_id] = part_scheme.getBlocksInPartition(part_id);
         }
       } else {
         input_relation_block_ids_[0] = input_relation.getBlocksSnapshot();
       }
     }
   }

   ~SelectOperator() override {}

   OperatorType getOperatorType() const override {
     return kSelect;
   }

   std::string getName() const override {
     return "SelectOperator";
   }

   const CatalogRelation& input_relation() const {
     return input_relation_;
   }

   bool getAllWorkOrders(WorkOrdersContainer *container,
                         QueryContext *query_context,
                         StorageManager *storage_manager,
                         const tmb::client_id scheduler_client_id,
                         tmb::MessageBus *bus) override;

   bool getAllWorkOrderProtos(WorkOrderProtosContainer *container) override;

   void feedInputBlock(const block_id input_block_id,
                       const relation_id input_relation_id,
                       const partition_id part_id) override {
     if (input_relation_id == input_relation_.getID()) {
       input_relation_block_ids_[part_id].push_back(input_block_id);
     }
   }

   QueryContext::insert_destination_id getInsertDestinationID() const override {
     return output_destination_index_;
   }

   const relation_id getOutputRelationID() const override {
     return output_relation_.getID();
   }

  private:
   /**
    * @brief Create Work Order proto.
    *
    * @param part_id The partition id.
    * @param block The block id used in the Work Order.
    **/
   serialization::WorkOrder* createWorkOrderProto(const partition_id part_id, const block_id block);

   const CatalogRelation &input_relation_;
   const CatalogRelation &output_relation_;
   const QueryContext::insert_destination_id output_destination_index_;
   const QueryContext::predicate_id predicate_index_;

   const QueryContext::scalar_group_id selection_index_;
   const std::vector<attribute_id> simple_selection_;

   const std::size_t num_partitions_;
   // A vector of vectors V where V[i] indicates the list of block IDs of the
   // input relation that belong to the partition i.
   std::vector<std::vector<block_id>> input_relation_block_ids_;
   // A single workorder is generated for each block in each partition of input relation.
   std::vector<std::size_t> num_workorders_generated_;

   const bool simple_projection_;
   const bool input_relation_is_stored_;
 #ifdef QUICKSTEP_HAVE_LIBNUMA
   const NUMAPlacementScheme *placement_scheme_;
 #endif
   bool started_;

   DISALLOW_COPY_AND_ASSIGN(SelectOperator);
 };

 /**
  * @brief A WorkOrder produced by SelectOperator.
  **/
 class SelectWorkOrder : public WorkOrder {
  public:
   /**
    * @brief Constructor.
    *
    * @note Reference parameter selection is NOT owned by this class and must
    *       remain valid until after execute() is called.
    *
    * @param query_id The ID of the query to which this WorkOrder belongs.
    * @param input_relation The relation to perform selection over.
    * @param part_id The partition id.
    * @param input_block_id The block id.
    * @param predicate All tuples matching \c predicate will be selected (or NULL
    *        to select all tuples).
    * @param simple_projection Whether the Select is simple.
    * @param simple_selection The list of attribute ids, used if \c
    *        simple_projection is true.
    * @param selection A list of Scalars which will be evaluated to project
    *        input tuples, used if \c simple_projection is false.
    * @param output_destination The InsertDestination to insert the selection
    *        results.
    * @param storage_manager The StorageManager to use.
    * @param lip_filter_adaptive_prober The attached LIP filter prober.
    **/
   SelectWorkOrder(const std::size_t query_id,
                   const CatalogRelationSchema &input_relation,
                   const partition_id part_id,
                   const block_id input_block_id,
                   const Predicate *predicate,
                   const bool simple_projection,
                   const std::vector<attribute_id> &simple_selection,
                   const std::vector<std::unique_ptr<const Scalar>> *selection,
                   InsertDestination *output_destination,
                   StorageManager *storage_manager,
                   LIPFilterAdaptiveProber *lip_filter_adaptive_prober,
                   const numa_node_id numa_node = 0)
       : WorkOrder(query_id, part_id),
         input_relation_(input_relation),
         input_block_id_(input_block_id),
         predicate_(predicate),
         simple_projection_(simple_projection),
         simple_selection_(simple_selection),
         selection_(selection),
         output_destination_(DCHECK_NOTNULL(output_destination)),
         storage_manager_(DCHECK_NOTNULL(storage_manager)),
         lip_filter_adaptive_prober_(lip_filter_adaptive_prober) {
     preferred_numa_nodes_.push_back(numa_node);
   }

   /**
    * @brief Constructor for the distributed version.
    *
    * @note Reference parameter selection is NOT owned by this class and must
    *       remain valid until after execute() is called.
    *
    * @param query_id The ID of the query to which this WorkOrder belongs.
    * @param input_relation The relation to perform selection over.
    * @param part_id The partition id.
    * @param input_block_id The block id.
    * @param predicate All tuples matching \c predicate will be selected (or NULL
    *        to select all tuples).
    * @param simple_projection Whether the Select is simple.
    * @param simple_selection The list of attribute ids, used if \c
    *        simple_projection is true.
    * @param selection A list of Scalars which will be evaluated to project
    *        input tuples, used if \c simple_projection is false.
    * @param output_destination The InsertDestination to insert the selection
    *        results.
    * @param storage_manager The StorageManager to use.
    * @param lip_filter_adaptive_prober The attached LIP filter prober.
    **/
   SelectWorkOrder(const std::size_t query_id,
                   const CatalogRelationSchema &input_relation,
                   const partition_id part_id,
                   const block_id input_block_id,
                   const Predicate *predicate,
                   const bool simple_projection,
                   std::vector<attribute_id> &&simple_selection,
                   const std::vector<std::unique_ptr<const Scalar>> *selection,
                   InsertDestination *output_destination,
                   StorageManager *storage_manager,
                   LIPFilterAdaptiveProber *lip_filter_adaptive_prober,
                   const numa_node_id numa_node = 0)
       : WorkOrder(query_id, part_id),
         input_relation_(input_relation),
         input_block_id_(input_block_id),
         predicate_(predicate),
         simple_projection_(simple_projection),
         simple_selection_(std::move(simple_selection)),
         selection_(selection),
         output_destination_(DCHECK_NOTNULL(output_destination)),
         storage_manager_(DCHECK_NOTNULL(storage_manager)),
         lip_filter_adaptive_prober_(lip_filter_adaptive_prober) {
     preferred_numa_nodes_.push_back(numa_node);
   }

   ~SelectWorkOrder() override {}

   /**
    * @exception TupleTooLargeForBlock A tuple produced by this selection was
    *            too large to insert into an empty block provided by
    *            output_destination_index_ in query_context. Select may be
    *            partially complete (with some tuples inserted into the
    *            destination) when this exception is thrown, causing potential
    *            inconsistency.
    **/
   void execute() override;

  private:
   const CatalogRelationSchema &input_relation_;
   const block_id input_block_id_;
   const Predicate *predicate_;

   const bool simple_projection_;
   const std::vector<attribute_id> simple_selection_;
   const std::vector<std::unique_ptr<const Scalar>> *selection_;

   InsertDestination *output_destination_;
   StorageManager *storage_manager_;

   std::unique_ptr<LIPFilterAdaptiveProber> lip_filter_adaptive_prober_;

   DISALLOW_COPY_AND_ASSIGN(SelectWorkOrder);
 };

 /** @} */

 }  // namespace quickstep

 #endif  // QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_
	/**
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	**/

	#ifndef QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_
	#define QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_

	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "catalog/CatalogRelation.hpp"
	#include "catalog/CatalogTypedefs.hpp"

	#ifdef QUICKSTEP_HAVE_LIBNUMA
	#include "catalog/NUMAPlacementScheme.hpp"
	#endif

	#include "catalog/PartitionSchemeHeader.hpp"
	#include "query_execution/QueryContext.hpp"
	#include "relational_operators/RelationalOperator.hpp"
	#include "relational_operators/WorkOrder.hpp"
	#include "storage/StorageBlockInfo.hpp"
	#include "utility/Macros.hpp"
	#include "utility/lip_filter/LIPFilterAdaptiveProber.hpp"

	#include "glog/logging.h"

	#include "tmb/id_typedefs.h"

	namespace tmb { class MessageBus; }

	namespace quickstep {

	class CatalogRelationSchema;
	class InsertDestination;
	class LIPFilterDeployment;
	class Predicate;
	class Scalar;
	class StorageManager;
	class WorkOrderProtosContainer;
	class WorkOrdersContainer;

	namespace serialization { class WorkOrder; }

	/** \addtogroup RelationalOperators
	* @{
	*/

	/**
	* @brief An operator which performs simple selection over a relation.
	**/
	class SelectOperator : public RelationalOperator {
	public:
	/**
	* @brief Constructor for selection with arbitrary expressions in projection
	* list.
	*
	* @param query_id The ID of the query to which this operator belongs.
	* @param input_relation The relation to perform selection over.
	* @param output_relation The output relation.
	* @param output_destination_index The index of the InsertDestination in the
	* QueryContext to insert the selection results.
	* @param predicate_index The index of selection predicate in QueryContext.
	* All tuples matching pred will be selected (or kInvalidPredicateId to
	* select all tuples).
	* @param selection_index The group index of Scalars in QueryContext, which
	* will be evaluated to project input tuples.
	* @param input_relation_is_stored If input_relation is a stored relation and
	* is fully available to the operator before it can start generating
	* workorders.
	* @param num_partitions The number of partitions in 'input_relation'.
	* If no partitions, it is one.
	**/
	SelectOperator(
	const std::size_t query_id,
	const CatalogRelation &input_relation,
	const CatalogRelation &output_relation,
	const QueryContext::insert_destination_id output_destination_index,
	const QueryContext::predicate_id predicate_index,
	const QueryContext::scalar_group_id selection_index,
	const bool input_relation_is_stored,
	const std::size_t num_partitions)
	: RelationalOperator(query_id),
	input_relation_(input_relation),
	output_relation_(output_relation),
	output_destination_index_(output_destination_index),
	predicate_index_(predicate_index),
	selection_index_(selection_index),
	num_partitions_(num_partitions),
	input_relation_block_ids_(num_partitions),
	num_workorders_generated_(num_partitions),
	simple_projection_(false),
	input_relation_is_stored_(input_relation_is_stored),
	started_(false) {
	#ifdef QUICKSTEP_HAVE_LIBNUMA
	placement_scheme_ = input_relation.getNUMAPlacementSchemePtr();
	#endif
	if (input_relation_is_stored) {
	if (input_relation.hasPartitionScheme()) {
	const PartitionScheme &part_scheme = *input_relation.getPartitionScheme();

	for (std::size_t part_id = 0; part_id < num_partitions_; ++part_id) {
	input_relation_block_ids_[part_id] = part_scheme.getBlocksInPartition(part_id);
	}
	} else {
	input_relation_block_ids_[0] = input_relation.getBlocksSnapshot();
	}
	}
	}

	/**
	* @brief Constructor for selection with simple projection of attributes.
	*
	* @note selection_index_ is invalid, and will not be used for projection.
	*
	* @param query_id The ID of the query to which this operator belongs.
	* @param input_relation The relation to perform selection over.
	* @param output_relation The output relation.
	* @param output_destination_index The index of the InsertDestination in the
	* QueryContext to insert the selection results.
	* @param selection A projection list of attribute IDs. The operator takes
	* ownership of selection.
	* @param predicate_index The index of selection predicate in QueryContext.
	* All tuples matching pred will be selected (or kInvalidPredicateId to
	* select all tuples).
	* @param input_relation_is_stored If input_relation is a stored relation and
	* is fully available to the operator before it can start generating
	* workorders.
	* @param num_partitions The number of partitions in 'input_relation'.
	* If no partitions, it is one.
	**/
	SelectOperator(
	const std::size_t query_id,
	const CatalogRelation &input_relation,
	const CatalogRelation &output_relation,
	const QueryContext::insert_destination_id output_destination_index,
	const QueryContext::predicate_id predicate_index,
	std::vector<attribute_id> &&selection,
	const bool input_relation_is_stored,
	const std::size_t num_partitions)
	: RelationalOperator(query_id),
	input_relation_(input_relation),
	output_relation_(output_relation),
	output_destination_index_(output_destination_index),
	predicate_index_(predicate_index),
	selection_index_(QueryContext::kInvalidScalarGroupId),
	simple_selection_(std::move(selection)),
	num_partitions_(num_partitions),
	input_relation_block_ids_(num_partitions),
	num_workorders_generated_(num_partitions),
	simple_projection_(true),
	input_relation_is_stored_(input_relation_is_stored),
	started_(false) {
	#ifdef QUICKSTEP_HAVE_LIBNUMA
	placement_scheme_ = input_relation.getNUMAPlacementSchemePtr();
	#endif
	if (input_relation_is_stored) {
	if (input_relation.hasPartitionScheme()) {
	const PartitionScheme &part_scheme = *input_relation.getPartitionScheme();

	for (std::size_t part_id = 0; part_id < num_partitions_; ++part_id) {
	input_relation_block_ids_[part_id] = part_scheme.getBlocksInPartition(part_id);
	}
	} else {
	input_relation_block_ids_[0] = input_relation.getBlocksSnapshot();
	}
	}
	}

	~SelectOperator() override {}

	OperatorType getOperatorType() const override {
	return kSelect;
	}

	std::string getName() const override {
	return "SelectOperator";
	}

	const CatalogRelation& input_relation() const {
	return input_relation_;
	}

	bool getAllWorkOrders(WorkOrdersContainer *container,
	QueryContext *query_context,
	StorageManager *storage_manager,
	const tmb::client_id scheduler_client_id,
	tmb::MessageBus *bus) override;

	bool getAllWorkOrderProtos(WorkOrderProtosContainer *container) override;

	void feedInputBlock(const block_id input_block_id,
	const relation_id input_relation_id,
	const partition_id part_id) override {
	if (input_relation_id == input_relation_.getID()) {
	input_relation_block_ids_[part_id].push_back(input_block_id);
	}
	}

	QueryContext::insert_destination_id getInsertDestinationID() const override {
	return output_destination_index_;
	}

	const relation_id getOutputRelationID() const override {
	return output_relation_.getID();
	}

	private:
	/**
	* @brief Create Work Order proto.
	*
	* @param part_id The partition id.
	* @param block The block id used in the Work Order.
	**/
	serialization::WorkOrder* createWorkOrderProto(const partition_id part_id, const block_id block);

	const CatalogRelation &input_relation_;
	const CatalogRelation &output_relation_;
	const QueryContext::insert_destination_id output_destination_index_;
	const QueryContext::predicate_id predicate_index_;

	const QueryContext::scalar_group_id selection_index_;
	const std::vector<attribute_id> simple_selection_;

	const std::size_t num_partitions_;
	// A vector of vectors V where V[i] indicates the list of block IDs of the
	// input relation that belong to the partition i.
	std::vector<std::vector<block_id>> input_relation_block_ids_;
	// A single workorder is generated for each block in each partition of input relation.
	std::vector<std::size_t> num_workorders_generated_;

	const bool simple_projection_;
	const bool input_relation_is_stored_;
	#ifdef QUICKSTEP_HAVE_LIBNUMA
	const NUMAPlacementScheme *placement_scheme_;
	#endif
	bool started_;

	DISALLOW_COPY_AND_ASSIGN(SelectOperator);
	};

	/**
	* @brief A WorkOrder produced by SelectOperator.
	**/
	class SelectWorkOrder : public WorkOrder {
	public:
	/**
	* @brief Constructor.
	*
	* @note Reference parameter selection is NOT owned by this class and must
	* remain valid until after execute() is called.
	*
	* @param query_id The ID of the query to which this WorkOrder belongs.
	* @param input_relation The relation to perform selection over.
	* @param part_id The partition id.
	* @param input_block_id The block id.
	* @param predicate All tuples matching \c predicate will be selected (or NULL
	* to select all tuples).
	* @param simple_projection Whether the Select is simple.
	* @param simple_selection The list of attribute ids, used if \c
	* simple_projection is true.
	* @param selection A list of Scalars which will be evaluated to project
	* input tuples, used if \c simple_projection is false.
	* @param output_destination The InsertDestination to insert the selection
	* results.
	* @param storage_manager The StorageManager to use.
	* @param lip_filter_adaptive_prober The attached LIP filter prober.
	**/
	SelectWorkOrder(const std::size_t query_id,
	const CatalogRelationSchema &input_relation,
	const partition_id part_id,
	const block_id input_block_id,
	const Predicate *predicate,
	const bool simple_projection,
	const std::vector<attribute_id> &simple_selection,
	const std::vector<std::unique_ptr<const Scalar>> *selection,
	InsertDestination *output_destination,
	StorageManager *storage_manager,
	LIPFilterAdaptiveProber *lip_filter_adaptive_prober,
	const numa_node_id numa_node = 0)
	: WorkOrder(query_id, part_id),
	input_relation_(input_relation),
	input_block_id_(input_block_id),
	predicate_(predicate),
	simple_projection_(simple_projection),
	simple_selection_(simple_selection),
	selection_(selection),
	output_destination_(DCHECK_NOTNULL(output_destination)),
	storage_manager_(DCHECK_NOTNULL(storage_manager)),
	lip_filter_adaptive_prober_(lip_filter_adaptive_prober) {
	preferred_numa_nodes_.push_back(numa_node);
	}

	/**
	* @brief Constructor for the distributed version.
	*
	* @note Reference parameter selection is NOT owned by this class and must
	* remain valid until after execute() is called.
	*
	* @param query_id The ID of the query to which this WorkOrder belongs.
	* @param input_relation The relation to perform selection over.
	* @param part_id The partition id.
	* @param input_block_id The block id.
	* @param predicate All tuples matching \c predicate will be selected (or NULL
	* to select all tuples).
	* @param simple_projection Whether the Select is simple.
	* @param simple_selection The list of attribute ids, used if \c
	* simple_projection is true.
	* @param selection A list of Scalars which will be evaluated to project
	* input tuples, used if \c simple_projection is false.
	* @param output_destination The InsertDestination to insert the selection
	* results.
	* @param storage_manager The StorageManager to use.
	* @param lip_filter_adaptive_prober The attached LIP filter prober.
	**/
	SelectWorkOrder(const std::size_t query_id,
	const CatalogRelationSchema &input_relation,
	const partition_id part_id,
	const block_id input_block_id,
	const Predicate *predicate,
	const bool simple_projection,
	std::vector<attribute_id> &&simple_selection,
	const std::vector<std::unique_ptr<const Scalar>> *selection,
	InsertDestination *output_destination,
	StorageManager *storage_manager,
	LIPFilterAdaptiveProber *lip_filter_adaptive_prober,
	const numa_node_id numa_node = 0)
	: WorkOrder(query_id, part_id),
	input_relation_(input_relation),
	input_block_id_(input_block_id),
	predicate_(predicate),
	simple_projection_(simple_projection),
	simple_selection_(std::move(simple_selection)),
	selection_(selection),
	output_destination_(DCHECK_NOTNULL(output_destination)),
	storage_manager_(DCHECK_NOTNULL(storage_manager)),
	lip_filter_adaptive_prober_(lip_filter_adaptive_prober) {
	preferred_numa_nodes_.push_back(numa_node);
	}

	~SelectWorkOrder() override {}

	/**
	* @exception TupleTooLargeForBlock A tuple produced by this selection was
	* too large to insert into an empty block provided by
	* output_destination_index_ in query_context. Select may be
	* partially complete (with some tuples inserted into the
	* destination) when this exception is thrown, causing potential
	* inconsistency.
	**/
	void execute() override;

	private:
	const CatalogRelationSchema &input_relation_;
	const block_id input_block_id_;
	const Predicate *predicate_;

	const bool simple_projection_;
	const std::vector<attribute_id> simple_selection_;
	const std::vector<std::unique_ptr<const Scalar>> *selection_;

	InsertDestination *output_destination_;
	StorageManager *storage_manager_;

	std::unique_ptr<LIPFilterAdaptiveProber> lip_filter_adaptive_prober_;

	DISALLOW_COPY_AND_ASSIGN(SelectWorkOrder);
	};

	/** @} */

	} // namespace quickstep

	#endif // QUICKSTEP_RELATIONAL_OPERATORS_SELECT_OPERATOR_HPP_