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326 lines
13 KiB
C++
326 lines
13 KiB
C++
#pragma once
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#include <Interpreters/AggregateDescription.h>
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#include <Interpreters/Settings.h>
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#include <Core/Block.h>
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namespace DB
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{
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class Context;
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class ExpressionActions;
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struct ExpressionActionsChain;
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class Join;
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using JoinPtr = std::shared_ptr<Join>;
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class IAST;
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using ASTPtr = std::shared_ptr<IAST>;
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class Set;
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using SetPtr = std::shared_ptr<Set>;
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using PreparedSets = std::unordered_map<IAST*, SetPtr>;
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class IBlockInputStream;
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using BlockInputStreamPtr = std::shared_ptr<IBlockInputStream>;
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class IStorage;
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using StoragePtr = std::shared_ptr<IStorage>;
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using Tables = std::map<String, StoragePtr>;
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class ASTFunction;
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class ASTExpressionList;
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class ASTSelectQuery;
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/** Information on what to do when executing a subquery in the [GLOBAL] IN/JOIN section.
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*/
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struct SubqueryForSet
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{
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/// The source is obtained using the InterpreterSelectQuery subquery.
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BlockInputStreamPtr source;
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Block source_sample;
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/// If set, build it from result.
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SetPtr set;
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JoinPtr join;
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/// If set, put the result into the table.
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/// This is a temporary table for transferring to remote servers for distributed query processing.
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StoragePtr table;
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};
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/// ID of subquery -> what to do with it.
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using SubqueriesForSets = std::unordered_map<String, SubqueryForSet>;
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/** Transforms an expression from a syntax tree into a sequence of actions to execute it.
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*
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* NOTE: if `ast` is a SELECT query from a table, the structure of this table should not change during the lifetime of ExpressionAnalyzer.
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*/
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class ExpressionAnalyzer : private boost::noncopyable
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{
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private:
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using ExpressionActionsPtr = std::shared_ptr<ExpressionActions>;
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public:
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ExpressionAnalyzer(
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const ASTPtr & ast_,
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const Context & context_,
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const StoragePtr & storage_,
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const NamesAndTypesList & columns_,
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size_t subquery_depth_ = 0,
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bool do_global_ = false);
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/// Does the expression have aggregate functions or a GROUP BY or HAVING section.
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bool hasAggregation() const { return has_aggregation; }
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/// Get a list of aggregation keys and descriptions of aggregate functions if the query contains GROUP BY.
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void getAggregateInfo(Names & key_names, AggregateDescriptions & aggregates) const;
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/** Get a set of columns that are enough to read from the table to evaluate the expression.
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* Columns added from another table by JOIN are not counted.
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*/
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Names getRequiredColumns() const;
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/** These methods allow you to build a chain of transformations over a block, that receives values in the desired sections of the query.
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*
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* Example usage:
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* ExpressionActionsChain chain;
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* analyzer.appendWhere(chain);
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* chain.addStep();
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* analyzer.appendSelect(chain);
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* analyzer.appendOrderBy(chain);
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* chain.finalize();
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*
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* If only_types = true set, does not execute subqueries in the relevant parts of the query. The actions got this way
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* shouldn't be executed, they are only needed to get a list of columns with their types.
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*/
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/// Before aggregation:
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bool appendArrayJoin(ExpressionActionsChain & chain, bool only_types);
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bool appendJoin(ExpressionActionsChain & chain, bool only_types);
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bool appendWhere(ExpressionActionsChain & chain, bool only_types);
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bool appendGroupBy(ExpressionActionsChain & chain, bool only_types);
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void appendAggregateFunctionsArguments(ExpressionActionsChain & chain, bool only_types);
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/// After aggregation:
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bool appendHaving(ExpressionActionsChain & chain, bool only_types);
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void appendSelect(ExpressionActionsChain & chain, bool only_types);
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bool appendOrderBy(ExpressionActionsChain & chain, bool only_types);
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/// Deletes all columns except mentioned by SELECT, arranges the remaining columns and renames them to aliases.
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void appendProjectResult(ExpressionActionsChain & chain) const;
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/// If `ast` is not a SELECT query, just gets all the actions to evaluate the expression.
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/// If project_result, only the calculated values in the desired order, renamed to aliases, remain in the output block.
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/// Otherwise, only temporary columns will be deleted from the block.
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ExpressionActionsPtr getActions(bool project_result);
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/// Actions that can be performed on an empty block: adding constants and applying functions that depend only on constants.
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/// Does not execute subqueries.
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ExpressionActionsPtr getConstActions();
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/** Sets that require a subquery to be create.
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* Only the sets needed to perform actions returned from already executed `append*` or `getActions`.
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* That is, you need to call getSetsWithSubqueries after all calls of `append*` or `getActions`
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* and create all the returned sets before performing the actions.
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*/
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SubqueriesForSets getSubqueriesForSets() const { return subqueries_for_sets; }
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PreparedSets getPreparedSets() { return prepared_sets; }
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/** Tables that will need to be sent to remote servers for distributed query processing.
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*/
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const Tables & getExternalTables() const { return external_tables; }
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/// If ast is a SELECT query, it gets the aliases and column types from the SELECT section.
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Block getSelectSampleBlock();
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/// Create Set-s that we can from IN section to use the index on them.
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void makeSetsForIndex();
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private:
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ASTPtr ast;
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ASTSelectQuery * select_query;
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const Context & context;
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Settings settings;
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size_t subquery_depth;
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/// Columns that are mentioned in the expression, but were not specified in the constructor.
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NameSet unknown_required_columns;
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/** Original columns.
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* First, all available columns of the table are placed here. Then (when parsing the query), unused columns are deleted.
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*/
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NamesAndTypesList columns;
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/// Columns after ARRAY JOIN, JOIN, and/or aggregation.
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NamesAndTypesList aggregated_columns;
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/// The table from which the query is made.
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const StoragePtr storage;
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bool has_aggregation = false;
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NamesAndTypesList aggregation_keys;
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AggregateDescriptions aggregate_descriptions;
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SubqueriesForSets subqueries_for_sets;
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PreparedSets prepared_sets;
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/// NOTE: So far, only one JOIN per query is supported.
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/** Query of the form `SELECT expr(x) AS FROM t1 ANY LEFT JOIN (SELECT expr(x) AS k FROM t2) USING k`
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* The join is made by column k.
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* During the JOIN,
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* - in the "right" table, it will be available by alias `k`, since `Project` action for the subquery was executed.
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* - in the "left" table, it will be accessible by the name `expr(x)`, since `Project` action has not been executed yet.
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* You must remember both of these options.
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*/
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Names join_key_names_left;
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Names join_key_names_right;
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NamesAndTypesList columns_added_by_join;
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using Aliases = std::unordered_map<String, ASTPtr>;
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Aliases aliases;
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using SetOfASTs = std::set<const IAST *>;
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using MapOfASTs = std::map<ASTPtr, ASTPtr>;
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/// Which column is needed to be ARRAY-JOIN'ed to get the specified.
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/// For example, for `SELECT s.v ... ARRAY JOIN a AS s` will get "s.v" -> "a.v".
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NameToNameMap array_join_result_to_source;
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/// For the ARRAY JOIN section, mapping from the alias to the full column name.
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/// For example, for `ARRAY JOIN [1,2] AS b` "b" -> "array(1,2)" will enter here.
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NameToNameMap array_join_alias_to_name;
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/// The backward mapping for array_join_alias_to_name.
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NameToNameMap array_join_name_to_alias;
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/// Do I need to prepare for execution global subqueries when analyzing the query.
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bool do_global;
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/// All new temporary tables obtained by performing the GLOBAL IN/JOIN subqueries.
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Tables external_tables;
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size_t external_table_id = 1;
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void init();
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static NamesAndTypesList::iterator findColumn(const String & name, NamesAndTypesList & cols);
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NamesAndTypesList::iterator findColumn(const String & name) { return findColumn(name, columns); }
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/** Remove all unnecessary columns from the list of all available columns of the table (`columns`).
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* At the same time, form a set of unknown columns (`unknown_required_columns`),
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* as well as the columns added by JOIN (`columns_added_by_join`).
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*/
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void collectUsedColumns();
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/** Find the columns that are obtained by JOIN.
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*/
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void collectJoinedColumns(NameSet & joined_columns, NamesAndTypesList & joined_columns_name_type);
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/** Create a dictionary of aliases.
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*/
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void addASTAliases(ASTPtr & ast, int ignore_levels = 0);
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/** For star nodes(`*`), expand them to a list of all columns.
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* For literal nodes, substitute aliases.
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*/
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void normalizeTree();
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void normalizeTreeImpl(ASTPtr & ast, MapOfASTs & finished_asts, SetOfASTs & current_asts, std::string current_alias, size_t level);
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/// Eliminates injective function calls and constant expressions from group by statement
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void optimizeGroupBy();
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/// Remove duplicate items from ORDER BY.
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void optimizeOrderBy();
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void optimizeLimitBy();
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/// remove Function_if AST if condition is constant
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void optimizeIfWithConstantCondition();
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void optimizeIfWithConstantConditionImpl(ASTPtr & current_ast, Aliases & aliases) const;
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bool tryExtractConstValueFromCondition(const ASTPtr & condition, bool & value) const;
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void makeSet(const ASTFunction * node, const Block & sample_block);
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/// Adds a list of ALIAS columns from the table
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void addAliasColumns();
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/// Replacing scalar subqueries with constant values.
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void executeScalarSubqueries();
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void executeScalarSubqueriesImpl(ASTPtr & ast);
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/// Find global subqueries in the GLOBAL IN/JOIN sections. Fills in external_tables.
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void initGlobalSubqueriesAndExternalTables();
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void initGlobalSubqueries(ASTPtr & ast);
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/// Finds in the query the usage of external tables (as table identifiers). Fills in external_tables.
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void findExternalTables(ASTPtr & ast);
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/** Initialize InterpreterSelectQuery for a subquery in the GLOBAL IN/JOIN section,
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* create a temporary table of type Memory and store it in the external_tables dictionary.
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*/
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void addExternalStorage(ASTPtr & subquery_or_table_name);
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void getArrayJoinedColumns();
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void getArrayJoinedColumnsImpl(const ASTPtr & ast);
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void addMultipleArrayJoinAction(ExpressionActionsPtr & actions) const;
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void addJoinAction(ExpressionActionsPtr & actions, bool only_types) const;
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struct ScopeStack;
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void getActionsImpl(const ASTPtr & ast, bool no_subqueries, bool only_consts, ScopeStack & actions_stack);
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void getRootActions(const ASTPtr & ast, bool no_subqueries, bool only_consts, ExpressionActionsPtr & actions);
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void getActionsBeforeAggregation(const ASTPtr & ast, ExpressionActionsPtr & actions, bool no_subqueries);
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/** Add aggregation keys to aggregation_keys, aggregate functions to aggregate_descriptions,
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* Create a set of columns aggregated_columns resulting after the aggregation, if any,
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* or after all the actions that are normally performed before aggregation.
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* Set has_aggregation = true if there is GROUP BY or at least one aggregate function.
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*/
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void analyzeAggregation();
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void getAggregates(const ASTPtr & ast, ExpressionActionsPtr & actions);
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void assertNoAggregates(const ASTPtr & ast, const char * description);
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/** Get a set of necessary columns to read from the table.
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* In this case, the columns specified in ignored_names are considered unnecessary. And the ignored_names parameter can be modified.
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* The set of columns available_joined_columns are the columns available from JOIN, they are not needed for reading from the main table.
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* Put in required_joined_columns the set of columns available from JOIN and needed.
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*/
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void getRequiredColumnsImpl(const ASTPtr & ast,
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NameSet & required_columns, NameSet & ignored_names,
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const NameSet & available_joined_columns, NameSet & required_joined_columns);
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/// Get the table from which the query is made
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StoragePtr getTable();
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/// columns - the columns that are present before the transformations begin.
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void initChain(ExpressionActionsChain & chain, const NamesAndTypesList & columns) const;
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void assertSelect() const;
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void assertAggregation() const;
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/** Create Set from an explicit enumeration of values in the query.
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* If create_ordered_set = true - create a data structure suitable for using the index.
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*/
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void makeExplicitSet(const ASTFunction * node, const Block & sample_block, bool create_ordered_set);
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void makeSetsForIndexImpl(const ASTPtr & node, const Block & sample_block);
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/** Translate qualified names such as db.table.column, table.column, table_alias.column
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* to unqualified names. This is done in a poor transitional way:
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* only one ("main") table is supported. Ambiguity is not detected or resolved.
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*/
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void translateQualifiedNames();
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void translateQualifiedNamesImpl(ASTPtr & node, const String & database_name, const String & table_name, const String & alias);
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};
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}
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