Example #1
0
void SequentialHeapMerger::copyValues(const std::vector<c_atable_ptr_t > &input_tables,
                                      size_t source_column_index,
                                      atable_ptr_t &merged_table,
                                      size_t destination_column_index,
                                      std::vector<std::vector<value_id_t> > &value_id_mapping,
                                      bool useValid,
                                      const std::vector<bool>& valid) {
  ValueId value_id;

  // copy all value ids to the new doc vector
  // and apply value id mapping
  size_t merged_table_row = 0;

  // Only apply the mapping if we have one, for non-dict columns, we
  // just copy the "value_ids". We use almost identical source code
  // here to avoid the additional branch in the inner loop. Not pretty
  // but it works.
  if (value_id_mapping.size() > 0) {
    size_t part_counter = 0;
    for (size_t table = 0; table < input_tables.size(); table++) {
      for (size_t row = 0; row < input_tables[table]->size(); row++) {
	if (!useValid || (useValid && valid[part_counter + row])) {
	  value_id.valueId = input_tables[table]->getValueId(source_column_index, row).valueId;
	  value_id.valueId = value_id_mapping[table][value_id.valueId]; // translate value id to new dict
	  merged_table->setValueId(destination_column_index, merged_table_row, value_id);
	  merged_table_row++;
	}
      }
      part_counter += input_tables[table]->size();
    }
  } else {
    
    // No dict columns
    size_t part_counter = 0;
    for (size_t table = 0; table < input_tables.size(); table++) {
      for (size_t row = 0; row < input_tables[table]->size(); row++) {
	if (!useValid || (useValid && valid[part_counter + row])) {
	  value_id.valueId = input_tables[table]->getValueId(source_column_index, row).valueId;
	  merged_table->setValueId(destination_column_index, merged_table_row, value_id);
	  merged_table_row++;
	}
      }
      part_counter += input_tables[table]->size();
    }

  }

}
Example #2
0
 value_type operator() () {
   auto d = std::dynamic_pointer_cast<OrderPreservingDictionary<R>>(_dict);
   size_t tabSize = _main->size();
   size_t start = _main->size() - _delta->size();
   for(size_t row = start; row < tabSize; ++row) {
     _main->setValueId(_dstCol, row, ValueId{d->getValueIdForValue(_delta->getValue<R>(_col, row-start)), 0});
   }
 }
Example #3
0
void SimpleStoreMerger::mergeValues(const std::vector<c_atable_ptr_t > &input_tables,
                              atable_ptr_t merged_table,
                              const column_mapping_t &column_mapping,
                              const uint64_t newSize,
                              bool useValid,
                              const std::vector<bool>& valid) {

  if (useValid)
    throw std::runtime_error("SimpleStoreMerger does not support valid vectors");


  if(input_tables.size() != 2) throw std::runtime_error("SimpleStoreMerger does not support more than two tables");
  auto delta = std::dynamic_pointer_cast<const RawTable>(input_tables[1]);
  auto main = input_tables[0];

  // Prepare type handling
  MergeDictFunctor fun;
  type_switch<hyrise_basic_types> ts;

  std::vector<MergeDictFunctor::result> mergedDictionaries(column_mapping.size());

  // Extract unique values for delta
  for(const auto& kv : column_mapping) {
    const auto& col = kv.first;
    const auto& dst = kv.second;
    fun.prepare(main, delta, col);
    auto result = ts(main->typeOfColumn(col), fun);
    merged_table->setDictionaryAt(result.dict, dst);
    mergedDictionaries[col] = result;
  }


  // Update the values of the new Table
  merged_table->resize(newSize);
  size_t tabSize = main->size();
  for(size_t row=0; row < tabSize; ++row) {
    for( const auto& kv : column_mapping) {
      const auto& col = kv.first;
      const auto& dst = kv.second;
      merged_table->setValueId(dst, row, ValueId{mergedDictionaries[col].mapping[main->getValueId(col, row).valueId], 0});
    }
  }

  // Map the values for the values in the uncompressed delta
  MapValueForValueId map;
  for( const auto& kv : column_mapping) {
    const auto& col = kv.first;
    const auto& dst = kv.second;
    map.prepare(merged_table, dst, mergedDictionaries[col].dict, col, delta);
    ts(merged_table->typeOfColumn(dst), map);
  }
}