/*------------------------------------------------------------------------------* * Architecture & Implementation of DBMS * *------------------------------------------------------------------------------* * Copyright 2022 Databases and Information Systems Group TU Dortmund * * Visit us at * * http://dbis.cs.tu-dortmund.de/cms/en/home/ * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * * OTHER DEALINGS IN THE SOFTWARE. * * * * Authors: * * Maximilian Berens * * Roland Kühn * * Jan Mühlig * *------------------------------------------------------------------------------* */ #pragma once #include "node_interface.h" #include namespace beedb::plan::logical { class AbstractJoinNode : public BinaryNode { public: explicit AbstractJoinNode(std::string &&name, std::unique_ptr &&predicate) : BinaryNode(std::move(name)), _predicate(std::move(predicate)) { } AbstractJoinNode(const AbstractJoinNode &other, std::string &&name) : AbstractJoinNode(std::move(name), other._predicate->copy()) { std::copy(other._schema.begin(), other._schema.end(), std::back_inserter(_schema)); } AbstractJoinNode(const AbstractJoinNode &other, std::string &&name, std::unique_ptr &&predicate) : AbstractJoinNode(std::move(name), std::move(predicate)) { std::copy(other._schema.begin(), other._schema.end(), std::back_inserter(_schema)); } ~AbstractJoinNode() override = default; [[nodiscard]] const std::unique_ptr &predicate() const { return _predicate; } const Schema &check_and_emit_schema(TableMap &tables) override { _schema.clear(); const auto &left_schema = left_child()->check_and_emit_schema(tables); const auto &right_schema = right_child()->check_and_emit_schema(tables); expression::for_attribute(_predicate, [&tables](auto &attribute) { if (attribute.is_asterisk()) { throw exception::LogicalException("* is not a valid join predicate."); } tables.check_and_replace_table(attribute); }); _schema.reserve(left_schema.size() + right_schema.size()); std::copy(left_schema.begin(), left_schema.end(), std::back_inserter(_schema)); std::copy(right_schema.begin(), right_schema.end(), std::back_inserter(_schema)); return _schema; } [[nodiscard]] const Schema &schema() const override { return _schema; } private: std::unique_ptr _predicate; Schema _schema; }; class NestedLoopsJoinNode final : public AbstractJoinNode { public: explicit NestedLoopsJoinNode(std::unique_ptr &&predicate) : AbstractJoinNode("Nested Loops Join", std::move(predicate)) { } NestedLoopsJoinNode(const NestedLoopsJoinNode &other, std::unique_ptr &&predicate) : AbstractJoinNode(other, "Nested Loops Join", std::move(predicate)) { } ~NestedLoopsJoinNode() override = default; }; class HashJoinNode final : public AbstractJoinNode { public: explicit HashJoinNode(const NestedLoopsJoinNode &other) : AbstractJoinNode(other, "Hash Join") { } HashJoinNode(const HashJoinNode &other, std::unique_ptr &&predicate) : AbstractJoinNode(other, "Hash Join", std::move(predicate)) { } ~HashJoinNode() override = default; }; } // namespace beedb::plan::logical