Parser::InsertIntoTableAsSelectStmt Class Reference

#include <ParserNode.h>

Inheritance diagram for Parser::InsertIntoTableAsSelectStmt:

Collaboration diagram for Parser::InsertIntoTableAsSelectStmt:

Classes
struct	DistributedConnector
struct	LocalConnector

Public Member Functions
	InsertIntoTableAsSelectStmt (const std::string *table_name, const std::string *select_query, std::list< std::string * > *c)
void	populateData (QueryStateProxy, bool is_temporary, bool validate_table)
void	execute (const Catalog_Namespace::SessionInfo &session) override
std::string &	get_table ()
std::string &	get_select_query ()
Public Member Functions inherited from Parser::DDLStmt
void	setColumnDescriptor (ColumnDescriptor &cd, const ColumnDef *coldef)
Public Member Functions inherited from Parser::Node
virtual	~Node ()

Public Attributes
DistributedConnector *	leafs_connector_ = nullptr

Protected Attributes
std::vector< std::unique_ptr < std::string > >	column_list_
std::string	table_name_
std::string	select_query_

Detailed Description

Definition at line 1007 of file ParserNode.h.

Constructor & Destructor Documentation

Parser::InsertIntoTableAsSelectStmt::InsertIntoTableAsSelectStmt ( const std::string *  table_name, const std::string *  select_query, std::list< std::string * > *  c  )

inline

Definition at line 1010 of file ParserNode.h.

References column_list_.

      : table_name_(*table_name), select_query_(*select_query) {
    if (c) {
      for (auto e : *c) {
        column_list_.emplace_back(e);
      }
      delete c;
    }

    delete table_name;
    delete select_query;
  }

Member Function Documentation

void Parser::InsertIntoTableAsSelectStmt::execute ( const Catalog_Namespace::SessionInfo &  session )

overridevirtual

Implements Parser::DDLStmt.

Reimplemented in Parser::CreateTableAsSelectStmt.

Definition at line 2767 of file ParserNode.cpp.

References query_state::QueryState::create(), and STDLOG.

                                                                                     {
  auto session_copy = session;
  auto session_ptr = std::shared_ptr<Catalog_Namespace::SessionInfo>(
      &session_copy, boost::null_deleter());
  auto query_state = query_state::QueryState::create(session_ptr, select_query_);
  auto stdlog = STDLOG(query_state);
  populateData(query_state->createQueryStateProxy(), false, true);
}

Here is the call graph for this function:

std::string& Parser::InsertIntoTableAsSelectStmt::get_select_query ( )

inline

Definition at line 1030 of file ParserNode.h.

References select_query_.

{ return select_query_; }

std::string& Parser::InsertIntoTableAsSelectStmt::get_table ( )

inline

Definition at line 1028 of file ParserNode.h.

References table_name_.

{ return table_name_; }

void Parser::InsertIntoTableAsSelectStmt::populateData	(	QueryStateProxy	query_state_proxy,
		bool	is_temporary,
		bool	validate_table
	)

Definition at line 2401 of file ParserNode.cpp.

References CHECK(), ColumnDescriptor::columnName, ColumnDescriptor::columnType, TargetValueConverterFactory::create(), Fragmenter_Namespace::InsertData::databaseId, g_cluster, g_enable_experimental_string_functions, ResultSet::GeoTargetValue, SQLTypeInfoCore< TYPE_FACET_PACK >::get_compression(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_dimension(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_elem_type(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_scale(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_size(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_subtype(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_type(), SQLTypeInfoCore< TYPE_FACET_PACK >::get_type_name(), Parser::InsertIntoTableAsSelectStmt::LocalConnector::getColumnDescriptors(), query_state::QueryState::getConstSessionInfo(), Executor::getExecutor(), query_state::QueryStateProxy::getQueryState(), AccessPrivileges::INSERT_INTO_TABLE, Fragmenter_Namespace::InsertDataLoader::insertData(), SQLTypeInfoCore< TYPE_FACET_PACK >::is_array(), SQLTypeInfoCore< TYPE_FACET_PACK >::is_decimal(), SQLTypeInfoCore< TYPE_FACET_PACK >::is_geometry(), SQLTypeInfoCore< TYPE_FACET_PACK >::is_string(), TableDescriptor::isView, TableDescriptor::nShards, num_rows, Fragmenter_Namespace::InsertData::numRows, Parser::InsertIntoTableAsSelectStmt::LocalConnector::query(), run_benchmark_import::res, run_benchmark_import::result, AggregatedResult::rs, TableDBObjectType, TableDescriptor::tableId, Fragmenter_Namespace::InsertData::tableId, and AggregatedResult::targets_meta.

                                                                    {
  auto const session = query_state_proxy.getQueryState().getConstSessionInfo();
  LocalConnector local_connector;

  bool populate_table = false;

  if (leafs_connector_) {
    populate_table = true;
  } else {
    leafs_connector_ = &local_connector;
    if (!g_cluster) {
      populate_table = true;
    }
  }

  auto& catalog = session->getCatalog();
  auto get_target_column_descriptors = [this, &catalog](const TableDescriptor* td) {
    std::vector<const ColumnDescriptor*> target_column_descriptors;
    if (column_list_.empty()) {
      auto list = catalog.getAllColumnMetadataForTable(td->tableId, false, false, false);
      target_column_descriptors = {std::begin(list), std::end(list)};

    } else {
      for (auto& c : column_list_) {
        const ColumnDescriptor* cd = catalog.getMetadataForColumn(td->tableId, *c);
        if (cd == nullptr) {
          throw std::runtime_error("Column " + *c + " does not exist.");
        }
        target_column_descriptors.push_back(cd);
      }
    }

    return target_column_descriptors;
  };

  if (validate_table) {
    // check access privileges
    const TableDescriptor* td = catalog.getMetadataForTable(table_name_);

    if (td == nullptr) {
      throw std::runtime_error("Table " + table_name_ + " does not exist.");
    }
    if (td->isView) {
      throw std::runtime_error("Insert to views is not supported yet.");
    }

    if (!session->checkDBAccessPrivileges(DBObjectType::TableDBObjectType,
                                          AccessPrivileges::INSERT_INTO_TABLE,
                                          table_name_)) {
      throw std::runtime_error("User has no insert privileges on " + table_name_ + ".");
    }

    // only validate the select query so we get the target types
    // correctly, but do not populate the result set
    auto result = local_connector.query(query_state_proxy, select_query_, true);
    auto source_column_descriptors = local_connector.getColumnDescriptors(result, false);

    std::vector<const ColumnDescriptor*> target_column_descriptors =
        get_target_column_descriptors(td);
    if (catalog.getAllColumnMetadataForTable(td->tableId, false, false, false).size() !=
        target_column_descriptors.size()) {
      throw std::runtime_error("Insert into a subset of columns is not supported yet.");
    }

    if (source_column_descriptors.size() != target_column_descriptors.size()) {
      throw std::runtime_error("The number of source and target columns does not match.");
    }

    for (int i = 0; i < source_column_descriptors.size(); i++) {
      const ColumnDescriptor* source_cd =
          &(*std::next(source_column_descriptors.begin(), i));
      const ColumnDescriptor* target_cd = target_column_descriptors.at(i);

      if ((!source_cd->columnType.is_string() && !target_cd->columnType.is_string()) &&
          (source_cd->columnType.get_type() != target_cd->columnType.get_type())) {
        throw std::runtime_error("Source '" + source_cd->columnName + " " +
                                 source_cd->columnType.get_type_name() +
                                 "' and target '" + target_cd->columnName + " " +
                                 target_cd->columnType.get_type_name() +
                                 "' column types do not match.");
      }
      if (source_cd->columnType.is_array()) {
        if (source_cd->columnType.get_subtype() != target_cd->columnType.get_subtype()) {
          throw std::runtime_error("Source '" + source_cd->columnName + " " +
                                   source_cd->columnType.get_type_name() +
                                   "' and target '" + target_cd->columnName + " " +
                                   target_cd->columnType.get_type_name() +
                                   "' array column element types do not match.");
        }
      }

      if (source_cd->columnType.is_decimal() ||
          source_cd->columnType.get_elem_type().is_decimal()) {
        SQLTypeInfo sourceType = source_cd->columnType;
        SQLTypeInfo targetType = target_cd->columnType;

        if (source_cd->columnType.is_array()) {
          sourceType = source_cd->columnType.get_elem_type();
          targetType = target_cd->columnType.get_elem_type();
        }

        if ((sourceType.get_dimension() != targetType.get_dimension()) ||
            (sourceType.get_scale() != targetType.get_scale())) {
          throw std::runtime_error(
              "Source '" + source_cd->columnName + " " +
              source_cd->columnType.get_type_name() + "' and target '" +
              target_cd->columnName + " " + target_cd->columnType.get_type_name() +
              "' decimal columns dimension and or scale do not match.");
        }
      }

      if (source_cd->columnType.is_string()) {
        if (source_cd->columnType.get_compression() !=
            target_cd->columnType.get_compression()) {
          throw std::runtime_error("Source '" + source_cd->columnName + " " +
                                   source_cd->columnType.get_type_name() +
                                   "' and target '" + target_cd->columnName + " " +
                                   target_cd->columnType.get_type_name() +
                                   "' columns string encodings do not match.");
        }
      }

      if (source_cd->columnType.is_timestamp() && target_cd->columnType.is_timestamp()) {
        if (source_cd->columnType.get_dimension() !=
            target_cd->columnType.get_dimension()) {
          throw std::runtime_error("Source '" + source_cd->columnName + " " +
                                   source_cd->columnType.get_type_name() +
                                   "' and target '" + target_cd->columnName + " " +
                                   target_cd->columnType.get_type_name() +
                                   "' timestamp column precisions do not match.");
        }
      }

      if (!source_cd->columnType.is_string() && !source_cd->columnType.is_geometry() &&
          source_cd->columnType.get_size() > target_cd->columnType.get_size()) {
        throw std::runtime_error("Source '" + source_cd->columnName + " " +
                                 source_cd->columnType.get_type_name() +
                                 "' and target '" + target_cd->columnName + " " +
                                 target_cd->columnType.get_type_name() +
                                 "' column encoding sizes do not match.");
      }
    }
  }

  if (!populate_table) {
    return;
  }

  const TableDescriptor* created_td = catalog.getMetadataForTable(table_name_);
  Fragmenter_Namespace::InsertDataLoader insertDataLoader(*leafs_connector_);
  AggregatedResult res = leafs_connector_->query(query_state_proxy, select_query_);
  auto target_column_descriptors = get_target_column_descriptors(created_td);
  auto result_rows = res.rs;
  result_rows->setGeoReturnType(ResultSet::GeoReturnType::GeoTargetValue);
  const auto num_rows = result_rows->rowCount();

  if (0 == num_rows) {
    return;
  }

  size_t leaf_count = leafs_connector_->leafCount();

  size_t max_number_of_rows_per_package = std::min(num_rows / leaf_count, 64UL * 1024UL);

  size_t start_row = 0;
  size_t num_rows_to_process = std::min(num_rows, max_number_of_rows_per_package);

  // ensure that at least one row is being processed
  num_rows_to_process = std::max(num_rows_to_process, 1UL);

  std::vector<std::unique_ptr<TargetValueConverter>> value_converters;

  TargetValueConverterFactory factory;

  const int num_worker_threads = std::thread::hardware_concurrency();

  std::vector<size_t> thread_start_idx(num_worker_threads),
      thread_end_idx(num_worker_threads);
  bool can_go_parallel = !result_rows->isTruncated() && num_rows_to_process > 20000;

  std::atomic<size_t> row_idx{0};

  auto convert_function = [&result_rows,
                           &value_converters,
                           &row_idx,
                           &num_rows_to_process,
                           &thread_start_idx,
                           &thread_end_idx](const int thread_id) {
    const int num_cols = value_converters.size();
    const size_t start = thread_start_idx[thread_id];
    const size_t end = thread_end_idx[thread_id];
    size_t idx = 0;
    for (idx = start; idx < end; ++idx) {
      const auto result_row = result_rows->getRowAtNoTranslations(idx);
      if (!result_row.empty()) {
        size_t target_row = row_idx.fetch_add(1);

        if (target_row >= num_rows_to_process) {
          break;
        }

        for (unsigned int col = 0; col < num_cols; col++) {
          const auto& mapd_variant = result_row[col];
          value_converters[col]->convertToColumnarFormat(target_row, &mapd_variant);
        }
      }
    }

    thread_start_idx[thread_id] = idx;
  };

  auto single_threaded_convert_function = [&result_rows,
                                           &value_converters,
                                           &row_idx,
                                           &num_rows_to_process,
                                           &thread_start_idx,
                                           &thread_end_idx](const int thread_id) {
    const int num_cols = value_converters.size();
    const size_t start = thread_start_idx[thread_id];
    const size_t end = thread_end_idx[thread_id];
    size_t idx = 0;
    for (idx = start; idx < end; ++idx) {
      size_t target_row = row_idx.fetch_add(1);

      if (target_row >= num_rows_to_process) {
        break;
      }
      const auto result_row = result_rows->getNextRow(false, false);
      CHECK(!result_row.empty());
      for (unsigned int col = 0; col < num_cols; col++) {
        const auto& mapd_variant = result_row[col];
        value_converters[col]->convertToColumnarFormat(target_row, &mapd_variant);
      }
    }

    thread_start_idx[thread_id] = idx;
  };

  if (can_go_parallel) {
    const size_t entryCount = result_rows->entryCount();
    for (size_t i = 0,
                start_entry = 0,
                stride = (entryCount + num_worker_threads - 1) / num_worker_threads;
         i < num_worker_threads && start_entry < entryCount;
         ++i, start_entry += stride) {
      const auto end_entry = std::min(start_entry + stride, entryCount);
      thread_start_idx[i] = start_entry;
      thread_end_idx[i] = end_entry;
    }

  } else {
    thread_start_idx[0] = 0;
    thread_end_idx[0] = result_rows->entryCount();
  }

  std::shared_ptr<Executor> executor;

  if (g_enable_experimental_string_functions) {
    executor = Executor::getExecutor(catalog.getCurrentDB().dbId);
  }

  while (start_row < num_rows) {
    try {
      value_converters.clear();
      row_idx = 0;
      int colNum = 0;
      for (const auto targetDescriptor : target_column_descriptors) {
        auto sourceDataMetaInfo = res.targets_meta[colNum++];

        ConverterCreateParameter param{
            num_rows_to_process,
            catalog,
            sourceDataMetaInfo,
            targetDescriptor,
            targetDescriptor->columnType,
            !targetDescriptor->columnType.get_notnull(),
            result_rows->getRowSetMemOwner()->getLiteralStringDictProxy(),
            g_enable_experimental_string_functions
                ? executor->getStringDictionaryProxy(
                      sourceDataMetaInfo.get_type_info().get_comp_param(),
                      result_rows->getRowSetMemOwner(),
                      true)
                : nullptr};
        auto converter = factory.create(param);
        value_converters.push_back(std::move(converter));
      }

      if (can_go_parallel) {
        std::vector<std::future<void>> worker_threads;
        for (int i = 0; i < num_worker_threads; ++i) {
          worker_threads.push_back(std::async(std::launch::async, convert_function, i));
        }

        for (auto& child : worker_threads) {
          child.wait();
        }
        for (auto& child : worker_threads) {
          child.get();
        }

      } else {
        single_threaded_convert_function(0);
      }

      // finalize the insert data
      {
        auto finalizer_func =
            [](std::unique_ptr<TargetValueConverter>::pointer targetValueConverter) {
              targetValueConverter->finalizeDataBlocksForInsertData();
            };
        std::vector<std::future<void>> worker_threads;
        for (auto& converterPtr : value_converters) {
          worker_threads.push_back(
              std::async(std::launch::async, finalizer_func, converterPtr.get()));
        }

        for (auto& child : worker_threads) {
          child.wait();
        }
        for (auto& child : worker_threads) {
          child.get();
        }
      }

      Fragmenter_Namespace::InsertData insert_data;
      insert_data.databaseId = catalog.getCurrentDB().dbId;
      CHECK(created_td);
      insert_data.tableId = created_td->tableId;
      insert_data.numRows = num_rows_to_process;

      for (int col_idx = 0; col_idx < target_column_descriptors.size(); col_idx++) {
        value_converters[col_idx]->addDataBlocksToInsertData(insert_data);
      }

      insertDataLoader.insertData(*session, insert_data);
    } catch (...) {
      try {
        if (created_td->nShards) {
          const auto shard_tables = catalog.getPhysicalTablesDescriptors(created_td);
          for (const auto ptd : shard_tables) {
            leafs_connector_->rollback(*session, ptd->tableId);
          }
        }
        leafs_connector_->rollback(*session, created_td->tableId);
      } catch (...) {
        // eat it
      }
      throw;
    }
    start_row += num_rows_to_process;
    num_rows_to_process = std::min(num_rows - start_row, max_number_of_rows_per_package);
  }

  if (!is_temporary) {
    if (created_td->nShards) {
      const auto shard_tables = catalog.getPhysicalTablesDescriptors(created_td);
      for (const auto ptd : shard_tables) {
        leafs_connector_->checkpoint(*session, ptd->tableId);
      }
    }
    leafs_connector_->checkpoint(*session, created_td->tableId);
  }
}

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Member Data Documentation

std::vector<std::unique_ptr<std::string> > Parser::InsertIntoTableAsSelectStmt::column_list_

protected

Definition at line 1060 of file ParserNode.h.

Referenced by InsertIntoTableAsSelectStmt().

DistributedConnector* Parser::InsertIntoTableAsSelectStmt::leafs_connector_ = nullptr

Definition at line 1057 of file ParserNode.h.

std::string Parser::InsertIntoTableAsSelectStmt::select_query_

protected

Definition at line 1062 of file ParserNode.h.

Referenced by get_select_query().

std::string Parser::InsertIntoTableAsSelectStmt::table_name_

protected

Definition at line 1061 of file ParserNode.h.

Referenced by get_table().

---

The documentation for this class was generated from the following files:

• /home/jenkins-slave/workspace/core-os-doxygen/Parser/ParserNode.h
• /home/jenkins-slave/workspace/core-os-doxygen/Parser/ParserNode.cpp