ClickHouse/dbms/Interpreters/ExpressionActions.h
Ivan 97f2a2213e
Move all folders inside /dbms one level up (#9974)
* Move some code outside dbms/src folder
* Fix paths
2020-04-02 02:51:21 +03:00

358 lines
12 KiB
C++

#pragma once
#include <Core/Block.h>
#include <Core/ColumnWithTypeAndName.h>
#include <Core/Names.h>
#include <Core/Settings.h>
#include <Interpreters/Context.h>
#include <Common/SipHash.h>
#include <Common/UInt128.h>
#include "config_core.h"
#include <unordered_map>
#include <unordered_set>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Interpreters/ArrayJoinAction.h>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
class AnalyzedJoin;
class IJoin;
using JoinPtr = std::shared_ptr<IJoin>;
class IExecutableFunction;
using ExecutableFunctionPtr = std::shared_ptr<IExecutableFunction>;
class IFunctionBase;
using FunctionBasePtr = std::shared_ptr<IFunctionBase>;
class IFunctionOverloadResolver;
using FunctionOverloadResolverPtr = std::shared_ptr<IFunctionOverloadResolver>;
class IDataType;
using DataTypePtr = std::shared_ptr<const IDataType>;
class ExpressionActions;
/** Action on the block.
*/
struct ExpressionAction
{
private:
using ExpressionActionsPtr = std::shared_ptr<ExpressionActions>;
public:
enum Type
{
ADD_COLUMN,
REMOVE_COLUMN,
COPY_COLUMN,
APPLY_FUNCTION,
/** Replaces the specified columns with arrays into columns with elements.
* Duplicates the values in the remaining columns by the number of elements in the arrays.
* Arrays must be parallel (have the same lengths).
*/
ARRAY_JOIN,
JOIN,
/// Reorder and rename the columns, delete the extra ones. The same column names are allowed in the result.
PROJECT,
/// Add columns with alias names. This columns are the same as non-aliased. PROJECT columns if you need to modify them.
ADD_ALIASES,
};
Type type{};
/// For ADD/REMOVE/COPY_COLUMN.
std::string source_name;
std::string result_name;
DataTypePtr result_type;
/// If COPY_COLUMN can replace the result column.
bool can_replace = false;
/// For ADD_COLUMN.
ColumnPtr added_column;
/// For APPLY_FUNCTION.
/// OverloadResolver is used before action was added to ExpressionActions (when we don't know types of arguments).
FunctionOverloadResolverPtr function_builder;
/// Can be used after action was added to ExpressionActions if we want to get function signature or properties like monotonicity.
FunctionBasePtr function_base;
/// Prepared function which is used in function execution.
ExecutableFunctionPtr function;
Names argument_names;
bool is_function_compiled = false;
/// For ARRAY JOIN
std::shared_ptr<ArrayJoinAction> array_join;
/// For JOIN
std::shared_ptr<const AnalyzedJoin> table_join;
JoinPtr join;
/// For PROJECT.
NamesWithAliases projection;
/// If result_name_ == "", as name "function_name(arguments separated by commas) is used".
static ExpressionAction applyFunction(
const FunctionOverloadResolverPtr & function_, const std::vector<std::string> & argument_names_, std::string result_name_ = "");
static ExpressionAction addColumn(const ColumnWithTypeAndName & added_column_);
static ExpressionAction removeColumn(const std::string & removed_name);
static ExpressionAction copyColumn(const std::string & from_name, const std::string & to_name, bool can_replace = false);
static ExpressionAction project(const NamesWithAliases & projected_columns_);
static ExpressionAction project(const Names & projected_columns_);
static ExpressionAction addAliases(const NamesWithAliases & aliased_columns_);
static ExpressionAction arrayJoin(const NameSet & array_joined_columns, bool array_join_is_left, const Context & context);
static ExpressionAction ordinaryJoin(std::shared_ptr<AnalyzedJoin> table_join, JoinPtr join);
/// Which columns necessary to perform this action.
Names getNeededColumns() const;
std::string toString() const;
bool operator==(const ExpressionAction & other) const;
struct ActionHash
{
UInt128 operator()(const ExpressionAction & action) const;
};
private:
friend class ExpressionActions;
void prepare(Block & sample_block, const Settings & settings, NameSet & names_not_for_constant_folding);
void executeOnTotals(Block & block) const;
/// Executes action on block (modify it). Block could be splitted in case of JOIN. Then not_processed block is created.
void execute(Block & block, bool dry_run, ExtraBlockPtr & not_processed) const;
void execute(Block & block, bool dry_run) const
{
ExtraBlockPtr extra;
execute(block, dry_run, extra);
}
};
/** Contains a sequence of actions on the block.
*/
class ExpressionActions
{
public:
using Actions = std::vector<ExpressionAction>;
ExpressionActions(const NamesAndTypesList & input_columns_, const Context & context_)
: input_columns(input_columns_), settings(context_.getSettingsRef())
{
for (const auto & input_elem : input_columns)
sample_block.insert(ColumnWithTypeAndName(nullptr, input_elem.type, input_elem.name));
#if USE_EMBEDDED_COMPILER
compilation_cache = context_.getCompiledExpressionCache();
#endif
}
/// For constant columns the columns themselves can be contained in `input_columns_`.
ExpressionActions(const ColumnsWithTypeAndName & input_columns_, const Context & context_)
: settings(context_.getSettingsRef())
{
for (const auto & input_elem : input_columns_)
{
input_columns.emplace_back(input_elem.name, input_elem.type);
sample_block.insert(input_elem);
}
#if USE_EMBEDDED_COMPILER
compilation_cache = context_.getCompiledExpressionCache();
#endif
}
/// Add the input column.
/// The name of the column must not match the names of the intermediate columns that occur when evaluating the expression.
/// The expression must not have any PROJECT actions.
void addInput(const ColumnWithTypeAndName & column);
void addInput(const NameAndTypePair & column);
void add(const ExpressionAction & action);
/// Adds new column names to out_new_columns (formed as a result of the added action).
void add(const ExpressionAction & action, Names & out_new_columns);
/// Adds to the beginning the removal of all extra columns.
void prependProjectInput();
/// Add the specified ARRAY JOIN action to the beginning. Change the appropriate input types to arrays.
/// If there are unknown columns in the ARRAY JOIN list, take their types from sample_block, and immediately after ARRAY JOIN remove them.
void prependArrayJoin(const ExpressionAction & action, const Block & sample_block_before);
/// If the last action is ARRAY JOIN, and it does not affect the columns from required_columns, discard and return it.
/// Change the corresponding output types to arrays.
bool popUnusedArrayJoin(const Names & required_columns, ExpressionAction & out_action);
/// - Adds actions to delete all but the specified columns.
/// - Removes unused input columns.
/// - Can somehow optimize the expression.
/// - Does not reorder the columns.
/// - Does not remove "unexpected" columns (for example, added by functions).
/// - If output_columns is empty, leaves one arbitrary column (so that the number of rows in the block is not lost).
void finalize(const Names & output_columns);
const Actions & getActions() const { return actions; }
/// Get a list of input columns.
Names getRequiredColumns() const
{
Names names;
for (NamesAndTypesList::const_iterator it = input_columns.begin(); it != input_columns.end(); ++it)
names.push_back(it->name);
return names;
}
const NamesAndTypesList & getRequiredColumnsWithTypes() const { return input_columns; }
/// Execute the expression on the block. The block must contain all the columns returned by getRequiredColumns.
void execute(Block & block, bool dry_run = false) const;
/// Execute the expression on the block with continuation.
void execute(Block & block, ExtraBlockPtr & not_processed, size_t & start_action) const;
/// Check if joined subquery has totals.
bool hasTotalsInJoin() const;
/** Execute the expression on the block of total values.
* Almost the same as `execute`. The difference is only when JOIN is executed.
*/
void executeOnTotals(Block & block) const;
/// Obtain a sample block that contains the names and types of result columns.
const Block & getSampleBlock() const { return sample_block; }
std::string dumpActions() const;
static std::string getSmallestColumn(const NamesAndTypesList & columns);
JoinPtr getTableJoinAlgo() const;
const Settings & getSettings() const { return settings; }
/// Check if result block has no rows. True if it's definite, false if we can't say for sure.
/// Call it only after subqueries for join were executed.
bool resultIsAlwaysEmpty() const;
/// Check if column is always zero. True if it's definite, false if we can't say for sure.
/// Call it only after subqueries for sets were executed.
bool checkColumnIsAlwaysFalse(const String & column_name) const;
struct ActionsHash
{
UInt128 operator()(const ExpressionActions::Actions & elems) const
{
SipHash hash;
for (const ExpressionAction & act : elems)
hash.update(ExpressionAction::ActionHash{}(act));
UInt128 result;
hash.get128(result.low, result.high);
return result;
}
};
private:
/// These columns have to be in input blocks (arguments of execute* methods)
NamesAndTypesList input_columns;
/// These actions will be executed on input blocks
Actions actions;
/// The example of result (output) block.
Block sample_block;
/// Columns which can't be used for constant folding.
NameSet names_not_for_constant_folding;
Settings settings;
#if USE_EMBEDDED_COMPILER
std::shared_ptr<CompiledExpressionCache> compilation_cache;
#endif
void checkLimits(Block & block) const;
void addImpl(ExpressionAction action, Names & new_names);
/// Move all arrayJoin as close as possible to the end.
void optimizeArrayJoin();
};
using ExpressionActionsPtr = std::shared_ptr<ExpressionActions>;
/** The sequence of transformations over the block.
* It is assumed that the result of each step is fed to the input of the next step.
* Used to execute parts of the query individually.
*
* For example, you can create a chain of two steps:
* 1) evaluate the expression in the WHERE clause,
* 2) calculate the expression in the SELECT section,
* and between the two steps do the filtering by value in the WHERE clause.
*/
struct ExpressionActionsChain
{
ExpressionActionsChain(const Context & context_)
: context(context_) {}
struct Step
{
ExpressionActionsPtr actions;
/// Columns were added to the block before current step in addition to prev step output.
NameSet additional_input;
/// Columns which are required in the result of current step.
Names required_output;
/// True if column from required_output is needed only for current step and not used in next actions
/// (and can be removed from block). Example: filter column for where actions.
/// If not empty, has the same size with required_output; is filled in finalize().
std::vector<bool> can_remove_required_output;
Step(const ExpressionActionsPtr & actions_ = nullptr, const Names & required_output_ = Names())
: actions(actions_), required_output(required_output_) {}
};
using Steps = std::vector<Step>;
const Context & context;
Steps steps;
void addStep();
void finalize();
void clear()
{
steps.clear();
}
ExpressionActionsPtr getLastActions()
{
if (steps.empty())
throw Exception("Empty ExpressionActionsChain", ErrorCodes::LOGICAL_ERROR);
return steps.back().actions;
}
Step & getLastStep()
{
if (steps.empty())
throw Exception("Empty ExpressionActionsChain", ErrorCodes::LOGICAL_ERROR);
return steps.back();
}
std::string dumpChain();
};
}