#pragma once #include #include #include #include #include #include #include namespace DB { class ASTFunction; struct ASTTablesInSelectQueryElement; class TableJoin; struct Settings; struct SelectQueryOptions; using Scalars = std::map; struct StorageInMemoryMetadata; using StorageMetadataPtr = std::shared_ptr; struct StorageSnapshot; using StorageSnapshotPtr = std::shared_ptr; struct TreeRewriterResult { ConstStoragePtr storage; StorageSnapshotPtr storage_snapshot; std::shared_ptr analyzed_join; const ASTTablesInSelectQueryElement * ast_join = nullptr; NamesAndTypesList source_columns; NameSet source_columns_set; /// Set of names of source_columns. /// Set of columns that are enough to read from the table to evaluate the expression. It does not include joined columns. NamesAndTypesList required_source_columns; /// Same as above but also record alias columns which are expanded. This is for RBAC access check. Names required_source_columns_before_expanding_alias_columns; /// Set of alias columns that are expanded to their alias expressions. We still need the original columns to check access permission. NameSet expanded_aliases; Aliases aliases; std::vector aggregates; std::vector window_function_asts; std::vector expressions_with_window_function; /// Which column is needed to be ARRAY-JOIN'ed to get the specified. /// For example, for `SELECT s.v ... ARRAY JOIN a AS s` will get "s.v" -> "a.v". NameToNameMap array_join_result_to_source; /// For the ARRAY JOIN section, mapping from the alias to the full column name. /// For example, for `ARRAY JOIN [1,2] AS b` "b" -> "array(1,2)" will enter here. /// Note: not used further. NameToNameMap array_join_alias_to_name; /// The backward mapping for array_join_alias_to_name. /// Note: not used further. NameToNameMap array_join_name_to_alias; /// Predicate optimizer overrides the sub queries bool rewrite_subqueries = false; /// Whether the query contains explicit columns like "SELECT column1 + column2 FROM table1". /// Queries like "SELECT count() FROM table1", "SELECT 1" don't contain explicit columns. bool has_explicit_columns = false; /// Whether it's possible to use the trivial count optimization, /// i.e. use a fast call of IStorage::totalRows() (or IStorage::totalRowsByPartitionPredicate()) /// instead of actual retrieving columns and counting rows. bool optimize_trivial_count = false; /// Cache isRemote() call for storage, because it may be too heavy. bool is_remote_storage = false; /// Rewrite _shard_num to shardNum() bool has_virtual_shard_num = false; /// Results of scalar sub queries Scalars scalars; Scalars local_scalars; explicit TreeRewriterResult( const NamesAndTypesList & source_columns_, ConstStoragePtr storage_ = {}, const StorageSnapshotPtr & storage_snapshot_ = {}, bool add_special = true); void collectSourceColumns(bool add_special); void collectUsedColumns(const ASTPtr & query, bool is_select, bool visit_index_hint); Names requiredSourceColumns() const { return required_source_columns.getNames(); } const Names & requiredSourceColumnsForAccessCheck() const { return required_source_columns_before_expanding_alias_columns; } NameSet getArrayJoinSourceNameSet() const; const Scalars & getScalars() const { return scalars; } }; using TreeRewriterResultPtr = std::shared_ptr; /// Tree Rewriter in terms of CMU slides @sa https://15721.courses.cs.cmu.edu/spring2020/slides/19-optimizer1.pdf /// /// Optimizes AST tree and collect information for further expression analysis in ExpressionAnalyzer. /// Result AST has the following invariants: /// * all aliases are substituted /// * qualified names are translated /// * scalar subqueries are executed replaced with constants /// * unneeded columns are removed from SELECT clause /// * duplicated columns are removed from ORDER BY, LIMIT BY, USING(...). class TreeRewriter : WithContext { public: explicit TreeRewriter(ContextPtr context_) : WithContext(context_) {} /// Analyze and rewrite not select query TreeRewriterResultPtr analyze( ASTPtr & query, const NamesAndTypesList & source_columns_, ConstStoragePtr storage = {}, const StorageSnapshotPtr & storage_snapshot = {}, bool allow_aggregations = false, bool allow_self_aliases = true, bool execute_scalar_subqueries = true, bool is_create_parameterized_view = false) const; /// Analyze and rewrite select query TreeRewriterResultPtr analyzeSelect( ASTPtr & query, TreeRewriterResult && result, const SelectQueryOptions & select_options = {}, const std::vector & tables_with_columns = {}, const Names & required_result_columns = {}, std::shared_ptr table_join = {}, bool is_parameterized_view = false, const NameToNameMap parameter_values = {}, const NameToNameMap parameter_types = {}) const; private: static void normalize(ASTPtr & query, Aliases & aliases, const NameSet & source_columns_set, bool ignore_alias, const Settings & settings, bool allow_self_aliases, ContextPtr context_, bool is_create_parameterized_view = false); }; }