#include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; extern const int INCORRECT_QUERY; } MergeTreeMinMaxGranule::MergeTreeMinMaxGranule(const MergeTreeMinMaxIndex & index) : IMergeTreeIndexGranule(), index(index), parallelogram() {} MergeTreeMinMaxGranule::MergeTreeMinMaxGranule( const MergeTreeMinMaxIndex & index, std::vector && parallelogram) : IMergeTreeIndexGranule(), index(index), parallelogram(std::move(parallelogram)) {} void MergeTreeMinMaxGranule::serializeBinary(WriteBuffer & ostr) const { if (empty()) throw Exception( "Attempt to write empty minmax index `" + index.name + "`", ErrorCodes::LOGICAL_ERROR); for (size_t i = 0; i < index.columns.size(); ++i) { const DataTypePtr & type = index.data_types[i]; type->serializeBinary(parallelogram[i].left, ostr); type->serializeBinary(parallelogram[i].right, ostr); } } void MergeTreeMinMaxGranule::deserializeBinary(ReadBuffer & istr) { parallelogram.clear(); Field min_val; Field max_val; for (size_t i = 0; i < index.columns.size(); ++i) { const DataTypePtr & type = index.data_types[i]; type->deserializeBinary(min_val, istr); type->deserializeBinary(max_val, istr); parallelogram.emplace_back(min_val, true, max_val, true); } } MergeTreeMinMaxAggregator::MergeTreeMinMaxAggregator(const MergeTreeMinMaxIndex & index) : index(index) {} MergeTreeIndexGranulePtr MergeTreeMinMaxAggregator::getGranuleAndReset() { return std::make_shared(index, std::move(parallelogram)); } void MergeTreeMinMaxAggregator::update(const Block & block, size_t * pos, size_t limit) { if (*pos >= block.rows()) throw Exception( "The provided position is not less than the number of block rows. Position: " + toString(*pos) + ", Block rows: " + toString(block.rows()) + ".", ErrorCodes::LOGICAL_ERROR); size_t rows_read = std::min(limit, block.rows() - *pos); Field field_min; Field field_max; for (size_t i = 0; i < index.columns.size(); ++i) { const auto & column = block.getByName(index.columns[i]).column; column->cut(*pos, rows_read)->getExtremes(field_min, field_max); if (parallelogram.size() <= i) { parallelogram.emplace_back(field_min, true, field_max, true); } else { parallelogram[i].left = std::min(parallelogram[i].left, field_min); parallelogram[i].right = std::max(parallelogram[i].right, field_max); } } *pos += rows_read; } MinMaxCondition::MinMaxCondition( const SelectQueryInfo &query, const Context &context, const MergeTreeMinMaxIndex &index) : IIndexCondition(), index(index), condition(query, context, index.columns, index.expr) {} bool MinMaxCondition::alwaysUnknownOrTrue() const { return condition.alwaysUnknownOrTrue(); } bool MinMaxCondition::mayBeTrueOnGranule(MergeTreeIndexGranulePtr idx_granule) const { std::shared_ptr granule = std::dynamic_pointer_cast(idx_granule); if (!granule) throw Exception( "Minmax index condition got a granule with the wrong type.", ErrorCodes::LOGICAL_ERROR); return condition.mayBeTrueInParallelogram(granule->parallelogram, index.data_types); } MergeTreeIndexGranulePtr MergeTreeMinMaxIndex::createIndexGranule() const { return std::make_shared(*this); } MergeTreeIndexAggregatorPtr MergeTreeMinMaxIndex::createIndexAggregator() const { return std::make_shared(*this); } IndexConditionPtr MergeTreeMinMaxIndex::createIndexCondition( const SelectQueryInfo & query, const Context & context) const { return std::make_shared(query, context, *this); }; bool MergeTreeMinMaxIndex::mayBenefitFromIndexForIn(const ASTPtr & node) const { const String column_name = node->getColumnName(); for (const auto & name : columns) if (column_name == name) return true; if (const auto * func = typeid_cast(node.get())) if (func->arguments->children.size() == 1) return mayBenefitFromIndexForIn(func->arguments->children.front()); return false; } std::unique_ptr minmaxIndexCreator( const NamesAndTypesList & new_columns, std::shared_ptr node, const Context & context) { if (node->name.empty()) throw Exception("Index must have unique name", ErrorCodes::INCORRECT_QUERY); if (node->type->arguments) throw Exception("Minmax index have not any arguments", ErrorCodes::INCORRECT_QUERY); ASTPtr expr_list = MergeTreeData::extractKeyExpressionList(node->expr->clone()); auto syntax = SyntaxAnalyzer(context, {}).analyze( expr_list, new_columns); auto minmax_expr = ExpressionAnalyzer(expr_list, syntax, context).getActions(false); auto sample = ExpressionAnalyzer(expr_list, syntax, context) .getActions(true)->getSampleBlock(); Names columns; DataTypes data_types; for (size_t i = 0; i < expr_list->children.size(); ++i) { const auto & column = sample.getByPosition(i); columns.emplace_back(column.name); data_types.emplace_back(column.type); } return std::make_unique( node->name, std::move(minmax_expr), columns, data_types, sample, node->granularity); } }