#pragma once #include #include #include #include #include namespace DB { class ExpressionActions; using ExpressionActionsPtr = std::shared_ptr; class ActionsDAG; using ActionsDAGPtr = std::shared_ptr; struct PrewhereInfo; using PrewhereInfoPtr = std::shared_ptr; struct PrewhereDAGInfo; using PrewhereDAGInfoPtr = std::shared_ptr; struct FilterInfo; using FilterInfoPtr = std::shared_ptr; struct FilterDAGInfo; using FilterDAGInfoPtr = std::shared_ptr; struct InputOrderInfo; using InputOrderInfoPtr = std::shared_ptr; struct TreeRewriterResult; using TreeRewriterResultPtr = std::shared_ptr; class ReadInOrderOptimizer; using ReadInOrderOptimizerPtr = std::shared_ptr; class Cluster; using ClusterPtr = std::shared_ptr; struct PrewhereInfo { /// Actions which are executed in order to alias columns are used for prewhere actions. ExpressionActionsPtr alias_actions; /// Actions for row level security filter. Applied separately before prewhere_actions. /// This actions are separate because prewhere condition should not be executed over filtered rows. ExpressionActionsPtr row_level_filter; /// Actions which are executed on block in order to get filter column for prewhere step. ExpressionActionsPtr prewhere_actions; /// Actions which are executed after reading from storage in order to remove unused columns. ExpressionActionsPtr remove_columns_actions; String row_level_column_name; String prewhere_column_name; bool remove_prewhere_column = false; bool need_filter = false; }; /// Same as PrewhereInfo, but with ActionsDAG. struct PrewhereDAGInfo { ActionsDAGPtr alias_actions; ActionsDAGPtr row_level_filter_actions; ActionsDAGPtr prewhere_actions; ActionsDAGPtr remove_columns_actions; String row_level_column_name; String prewhere_column_name; bool remove_prewhere_column = false; bool need_filter = false; PrewhereDAGInfo() = default; explicit PrewhereDAGInfo(ActionsDAGPtr prewhere_actions_, String prewhere_column_name_) : prewhere_actions(std::move(prewhere_actions_)), prewhere_column_name(std::move(prewhere_column_name_)) {} std::string dump() const; }; /// Helper struct to store all the information about the filter expression. struct FilterInfo { ExpressionActionsPtr alias_actions; ExpressionActionsPtr actions; String column_name; bool do_remove_column = false; }; /// Same as FilterInfo, but with ActionsDAG. struct FilterDAGInfo { ActionsDAGPtr actions; String column_name; bool do_remove_column = false; std::string dump() const; }; struct InputOrderInfo { SortDescription order_key_prefix_descr; int direction; InputOrderInfo(const SortDescription & order_key_prefix_descr_, int direction_) : order_key_prefix_descr(order_key_prefix_descr_), direction(direction_) {} bool operator ==(const InputOrderInfo & other) const { return order_key_prefix_descr == other.order_key_prefix_descr && direction == other.direction; } bool operator !=(const InputOrderInfo & other) const { return !(*this == other); } }; /** Query along with some additional data, * that can be used during query processing * inside storage engines. */ struct SelectQueryInfo { ASTPtr query; ASTPtr view_query; /// Optimized VIEW query /// Cluster for the query. ClusterPtr cluster; /// Optimized cluster for the query. /// In case of optimize_skip_unused_shards it may differs from original cluster. /// /// Configured in StorageDistributed::getQueryProcessingStage() ClusterPtr optimized_cluster; TreeRewriterResultPtr syntax_analyzer_result; PrewhereInfoPtr prewhere_info; ReadInOrderOptimizerPtr order_optimizer; /// Can be modified while reading from storage InputOrderInfoPtr input_order_info; /// Prepared sets are used for indices by storage engine. /// Example: x IN (1, 2, 3) PreparedSets sets; ClusterPtr getCluster() const { return !optimized_cluster ? cluster : optimized_cluster; } }; }