ClickHouse/src/Interpreters/TableJoin.h

366 lines
14 KiB
C++

#pragma once
#include <Core/Names.h>
#include <Core/NamesAndTypes.h>
#include <Core/SettingsEnums.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Interpreters/IJoin.h>
#include <Interpreters/JoinUtils.h>
#include <QueryPipeline/SizeLimits.h>
#include <DataTypes/getLeastSupertype.h>
#include <Interpreters/IKeyValueEntity.h>
#include <Common/Exception.h>
#include <Parsers/IAST_fwd.h>
#include <cstddef>
#include <unordered_map>
#include <utility>
#include <memory>
#include <base/types.h>
namespace DB
{
class Context;
class ASTSelectQuery;
struct DatabaseAndTableWithAlias;
class Block;
class DictionaryJoinAdapter;
class StorageJoin;
class StorageDictionary;
class IKeyValueEntity;
struct ColumnWithTypeAndName;
using ColumnsWithTypeAndName = std::vector<ColumnWithTypeAndName>;
struct Settings;
class IVolume;
using VolumePtr = std::shared_ptr<IVolume>;
class TableJoin
{
public:
using NameToTypeMap = std::unordered_map<String, DataTypePtr>;
/// Corresponds to one disjunct
struct JoinOnClause
{
Names key_names_left;
Names key_names_right; /// Duplicating right key names are qualified
ASTPtr on_filter_condition_left;
ASTPtr on_filter_condition_right;
std::string analyzer_left_filter_condition_column_name;
std::string analyzer_right_filter_condition_column_name;
JoinOnClause() = default;
std::pair<String, String> condColumnNames() const
{
std::pair<String, String> res;
if (!analyzer_left_filter_condition_column_name.empty())
res.first = analyzer_left_filter_condition_column_name;
if (!analyzer_right_filter_condition_column_name.empty())
res.second = analyzer_right_filter_condition_column_name;
if (on_filter_condition_left)
res.first = on_filter_condition_left->getColumnName();
if (on_filter_condition_right)
res.second = on_filter_condition_right->getColumnName();
return res;
}
size_t keysCount() const
{
assert(key_names_left.size() == key_names_right.size());
return key_names_right.size();
}
String formatDebug(bool short_format = false) const
{
const auto & [left_cond, right_cond] = condColumnNames();
if (short_format)
{
return fmt::format("({}) = ({}){}{}", fmt::join(key_names_left, ", "), fmt::join(key_names_right, ", "),
!left_cond.empty() ? " AND " + left_cond : "", !right_cond.empty() ? " AND " + right_cond : "");
}
return fmt::format(
"Left keys: [{}] Right keys [{}] Condition columns: '{}', '{}'",
fmt::join(key_names_left, ", "), fmt::join(key_names_right, ", "), left_cond, right_cond);
}
};
using Clauses = std::vector<JoinOnClause>;
static std::string formatClauses(const Clauses & clauses, bool short_format = false)
{
std::vector<std::string> res;
for (const auto & clause : clauses)
res.push_back("[" + clause.formatDebug(short_format) + "]");
return fmt::format("{}", fmt::join(res, "; "));
}
private:
/** Query of the form `SELECT expr(x) AS k FROM t1 ANY LEFT JOIN (SELECT expr(x) AS k FROM t2) USING k`
* The join is made by column k.
* During the JOIN,
* - in the "right" table, it will be available by alias `k`, since `Project` action for the subquery was executed.
* - in the "left" table, it will be accessible by the name `expr(x)`, since `Project` action has not been executed yet.
* You must remember both of these options.
*
* Query of the form `SELECT ... from t1 ANY LEFT JOIN (SELECT ... from t2) ON expr(t1 columns) = expr(t2 columns)`
* to the subquery will be added expression `expr(t2 columns)`.
* It's possible to use name `expr(t2 columns)`.
*/
SizeLimits size_limits;
const size_t default_max_bytes = 0;
const bool join_use_nulls = false;
const size_t max_joined_block_rows = 0;
MultiEnum<JoinAlgorithm> join_algorithm = MultiEnum<JoinAlgorithm>(JoinAlgorithm::AUTO);
const size_t partial_merge_join_rows_in_right_blocks = 0;
const size_t partial_merge_join_left_table_buffer_bytes = 0;
const size_t max_files_to_merge = 0;
const String temporary_files_codec = "LZ4";
ASTs key_asts_left;
ASTs key_asts_right;
Clauses clauses;
ASTTableJoin table_join;
ASOFJoinInequality asof_inequality = ASOFJoinInequality::GreaterOrEquals;
/// All columns which can be read from joined table. Duplicating names are qualified.
NamesAndTypesList columns_from_joined_table;
/// Columns will be added to block by JOIN.
/// It's a subset of columns_from_joined_table
/// Note: without corrected Nullability or type, see correctedColumnsAddedByJoin
NamesAndTypesList columns_added_by_join;
/// Target type to convert key columns before join
NameToTypeMap left_type_map;
NameToTypeMap right_type_map;
/// Name -> original name. Names are the same as in columns_from_joined_table list.
std::unordered_map<String, String> original_names;
/// Original name -> name. Only renamed columns.
std::unordered_map<String, String> renames;
/// Map column name to actual key name that can be an alias.
/// Example: SELECT r.id as rid from t JOIN r ON t.id = rid
/// Map: r.id -> rid
/// Required only for StorageJoin to map join keys back to original column names.
/// (workaround for ExpressionAnalyzer)
std::unordered_map<String, String> right_key_aliases;
VolumePtr tmp_volume;
std::shared_ptr<StorageJoin> right_storage_join;
std::shared_ptr<const IKeyValueEntity> right_kv_storage;
std::string right_storage_name;
bool is_join_with_constant = false;
Names requiredJoinedNames() const;
/// Create converting actions and change key column names if required
ActionsDAGPtr applyKeyConvertToTable(
const ColumnsWithTypeAndName & cols_src, const NameToTypeMap & type_mapping,
NameToNameMap & key_column_rename,
bool make_nullable) const;
void addKey(const String & left_name, const String & right_name, const ASTPtr & left_ast, const ASTPtr & right_ast = nullptr);
void assertHasOneOnExpr() const;
/// Calculates common supertypes for corresponding join key columns.
template <typename LeftNamesAndTypes, typename RightNamesAndTypes>
void inferJoinKeyCommonType(const LeftNamesAndTypes & left, const RightNamesAndTypes & right, bool allow_right, bool strict);
NamesAndTypesList correctedColumnsAddedByJoin() const;
void deduplicateAndQualifyColumnNames(const NameSet & left_table_columns, const String & right_table_prefix);
public:
TableJoin() = default;
TableJoin(const Settings & settings, VolumePtr tmp_volume_);
/// for StorageJoin
TableJoin(SizeLimits limits, bool use_nulls, JoinKind kind, JoinStrictness strictness,
const Names & key_names_right)
: size_limits(limits)
, default_max_bytes(0)
, join_use_nulls(use_nulls)
, join_algorithm(JoinAlgorithm::DEFAULT)
{
clauses.emplace_back().key_names_right = key_names_right;
table_join.kind = kind;
table_join.strictness = strictness;
}
JoinKind kind() const { return table_join.kind; }
JoinStrictness strictness() const { return table_join.strictness; }
bool sameStrictnessAndKind(JoinStrictness, JoinKind) const;
const SizeLimits & sizeLimits() const { return size_limits; }
VolumePtr getGlobalTemporaryVolume() { return tmp_volume; }
bool isEnabledAlgorithm(JoinAlgorithm val) const
{
/// When join_algorithm = 'default' (not specified by user) we use hash or direct algorithm.
/// It's behaviour that was initially supported by clickhouse.
bool is_enbaled_by_default = val == JoinAlgorithm::DEFAULT
|| val == JoinAlgorithm::HASH
|| val == JoinAlgorithm::DIRECT;
if (join_algorithm.isSet(JoinAlgorithm::DEFAULT) && is_enbaled_by_default)
return true;
return join_algorithm.isSet(val);
}
bool allowParallelHashJoin() const;
bool joinUseNulls() const { return join_use_nulls; }
bool forceNullableRight() const { return join_use_nulls && isLeftOrFull(kind()); }
bool forceNullableLeft() const { return join_use_nulls && isRightOrFull(kind()); }
size_t defaultMaxBytes() const { return default_max_bytes; }
size_t maxJoinedBlockRows() const { return max_joined_block_rows; }
size_t maxRowsInRightBlock() const { return partial_merge_join_rows_in_right_blocks; }
size_t maxBytesInLeftBuffer() const { return partial_merge_join_left_table_buffer_bytes; }
size_t maxFilesToMerge() const { return max_files_to_merge; }
const String & temporaryFilesCodec() const { return temporary_files_codec; }
bool needStreamWithNonJoinedRows() const;
bool oneDisjunct() const;
ASTTableJoin & getTableJoin() { return table_join; }
const ASTTableJoin & getTableJoin() const { return table_join; }
JoinOnClause & getOnlyClause() { assertHasOneOnExpr(); return clauses[0]; }
const JoinOnClause & getOnlyClause() const { assertHasOneOnExpr(); return clauses[0]; }
std::vector<JoinOnClause> & getClauses() { return clauses; }
const std::vector<JoinOnClause> & getClauses() const { return clauses; }
Names getAllNames(JoinTableSide side) const;
void resetCollected();
void addUsingKey(const ASTPtr & ast);
void addDisjunct();
void addOnKeys(ASTPtr & left_table_ast, ASTPtr & right_table_ast);
/* Conditions for left/right table from JOIN ON section.
*
* Conditions for left and right tables stored separately and united with 'and' function into one column.
* For example for query:
* SELECT ... JOIN ... ON t1.id == t2.id AND expr11(t1) AND expr21(t2) AND expr12(t1) AND expr22(t2)
*
* We will build two new ASTs: `expr11(t1) AND expr12(t1)`, `expr21(t2) AND expr22(t2)`
* Such columns will be added and calculated for left and right tables respectively.
* Only rows where conditions are met (where new columns have non-zero value) will be joined.
*
* NOTE: non-equi condition containing columns from different tables (like `... ON t1.id = t2.id AND t1.val > t2.val)
* doesn't supported yet, it can be added later.
*/
void addJoinCondition(const ASTPtr & ast, bool is_left);
bool hasUsing() const { return table_join.using_expression_list != nullptr; }
bool hasOn() const { return table_join.on_expression != nullptr; }
String getOriginalName(const String & column_name) const;
NamesWithAliases getNamesWithAliases(const NameSet & required_columns) const;
NamesWithAliases getRequiredColumns(const Block & sample, const Names & action_required_columns) const;
size_t rightKeyInclusion(const String & name) const;
NameSet requiredRightKeys() const;
bool isJoinWithConstant() const
{
return is_join_with_constant;
}
void setIsJoinWithConstant(bool is_join_with_constant_value)
{
is_join_with_constant = is_join_with_constant_value;
}
bool leftBecomeNullable(const DataTypePtr & column_type) const;
bool rightBecomeNullable(const DataTypePtr & column_type) const;
void addJoinedColumn(const NameAndTypePair & joined_column);
void setColumnsAddedByJoin(const NamesAndTypesList & columns_added_by_join_value)
{
columns_added_by_join = columns_added_by_join_value;
}
template <typename TColumns>
void addJoinedColumnsAndCorrectTypesImpl(TColumns & left_columns, bool correct_nullability);
void addJoinedColumnsAndCorrectTypes(NamesAndTypesList & left_columns, bool correct_nullability);
void addJoinedColumnsAndCorrectTypes(ColumnsWithTypeAndName & left_columns, bool correct_nullability);
/// Calculate converting actions, rename key columns in required
/// For `USING` join we will convert key columns inplace and affect into types in the result table
/// For `JOIN ON` we will create new columns with converted keys to join by.
std::pair<ActionsDAGPtr, ActionsDAGPtr>
createConvertingActions(
const ColumnsWithTypeAndName & left_sample_columns,
const ColumnsWithTypeAndName & right_sample_columns);
void setAsofInequality(ASOFJoinInequality inequality) { asof_inequality = inequality; }
ASOFJoinInequality getAsofInequality() { return asof_inequality; }
ASTPtr leftKeysList() const;
ASTPtr rightKeysList() const; /// For ON syntax only
void setColumnsFromJoinedTable(NamesAndTypesList columns_from_joined_table_value, const NameSet & left_table_columns, const String & right_table_prefix)
{
columns_from_joined_table = std::move(columns_from_joined_table_value);
deduplicateAndQualifyColumnNames(left_table_columns, right_table_prefix);
}
const NamesAndTypesList & columnsFromJoinedTable() const { return columns_from_joined_table; }
const NamesAndTypesList & columnsAddedByJoin() const { return columns_added_by_join; }
/// StorageJoin overrides key names (cause of different names qualification)
void setRightKeys(const Names & keys) { getOnlyClause().key_names_right = keys; }
void setLeftKeys(const Names & keys) { getOnlyClause().key_names_left = keys; }
Block getRequiredRightKeys(const Block & right_table_keys, std::vector<String> & keys_sources) const;
String renamedRightColumnName(const String & name) const;
String renamedRightColumnNameWithAlias(const String & name) const;
void setRename(const String & from, const String & to);
void resetKeys();
void resetToCross();
std::unordered_map<String, String> leftToRightKeyRemap() const;
/// Remember storage name in case of joining with dictionary or another special storage
void setRightStorageName(const std::string & storage_name);
const std::string & getRightStorageName() const;
void setStorageJoin(std::shared_ptr<const IKeyValueEntity> storage);
void setStorageJoin(std::shared_ptr<StorageJoin> storage);
std::shared_ptr<StorageJoin> getStorageJoin() const { return right_storage_join; }
bool isSpecialStorage() const { return !right_storage_name.empty() || right_storage_join || right_kv_storage; }
std::shared_ptr<const IKeyValueEntity> getStorageKeyValue() { return right_kv_storage; }
};
}