ClickHouse/src/Interpreters/join_common.h

166 lines
6.0 KiB
C++

#pragma once
#include <Columns/ColumnsNumber.h>
#include <Core/Block.h>
#include <Interpreters/IJoin.h>
#include <Interpreters/ActionsDAG.h>
#include <Interpreters/ExpressionActions.h>
namespace DB
{
struct ColumnWithTypeAndName;
class TableJoin;
class IColumn;
using ColumnRawPtrs = std::vector<const IColumn *>;
using ColumnRawPtrMap = std::unordered_map<String, const IColumn *>;
using UInt8ColumnDataPtr = const ColumnUInt8::Container *;
namespace JoinCommon
{
/// Store boolean column handling constant value without materializing
/// Behaves similar to std::variant<bool, ColumnPtr>, but provides more convenient specialized interface
class JoinMask
{
public:
explicit JoinMask(bool value)
: column(nullptr)
, const_value(value)
{}
explicit JoinMask(ColumnPtr col)
: column(col)
, const_value(false)
{}
bool isConstant() { return !column; }
/// Return data if mask is not constant
UInt8ColumnDataPtr getData()
{
if (column)
return &assert_cast<const ColumnUInt8 &>(*column).getData();
return nullptr;
}
inline bool isRowFiltered(size_t row) const
{
if (column)
return !assert_cast<const ColumnUInt8 &>(*column).getData()[row];
return !const_value;
}
private:
ColumnPtr column;
/// Used if column is null
bool const_value;
};
bool canBecomeNullable(const DataTypePtr & type);
DataTypePtr convertTypeToNullable(const DataTypePtr & type);
void convertColumnToNullable(ColumnWithTypeAndName & column);
void convertColumnsToNullable(Block & block, size_t starting_pos = 0);
void convertColumnsToNullable(MutableColumns & mutable_columns, size_t starting_pos = 0);
void removeColumnNullability(ColumnWithTypeAndName & column);
void changeColumnRepresentation(const ColumnPtr & src_column, ColumnPtr & dst_column);
ColumnPtr emptyNotNullableClone(const ColumnPtr & column);
ColumnPtr materializeColumn(const Block & block, const String & name);
Columns materializeColumns(const Block & block, const Names & names);
ColumnRawPtrs materializeColumnsInplace(Block & block, const Names & names);
ColumnRawPtrMap materializeColumnsInplaceMap(Block & block, const Names & names);
ColumnRawPtrs getRawPointers(const Columns & columns);
void convertToFullColumnsInplace(Block & block);
void convertToFullColumnsInplace(Block & block, const Names & names, bool change_type = true);
void restoreLowCardinalityInplace(Block & block, const Names & lowcard_keys);
ColumnRawPtrs extractKeysForJoin(const Block & block_keys, const Names & key_names_right);
/// Throw an exception if join condition column is not UIint8
void checkTypesOfMasks(const Block & block_left, const String & condition_name_left,
const Block & block_right, const String & condition_name_right);
/// Throw an exception if blocks have different types of key columns . Compare up to Nullability.
void checkTypesOfKeys(const Block & block_left, const Names & key_names_left,
const Block & block_right, const Names & key_names_right);
/// Check both keys and conditions
void checkTypesOfKeys(const Block & block_left, const Names & key_names_left, const String & condition_name_left,
const Block & block_right, const Names & key_names_right, const String & condition_name_right);
void createMissedColumns(Block & block);
void joinTotals(Block left_totals, Block right_totals, const TableJoin & table_join, Block & out_block);
void addDefaultValues(IColumn & column, const DataTypePtr & type, size_t count);
bool typesEqualUpToNullability(DataTypePtr left_type, DataTypePtr right_type);
/// Return mask array of type ColumnUInt8 for specified column. Source should have type UInt8 or Nullable(UInt8).
JoinMask getColumnAsMask(const Block & block, const String & column_name);
/// Split key and other columns by keys name list
void splitAdditionalColumns(const Names & key_names, const Block & sample_block, Block & block_keys, Block & block_others);
void changeLowCardinalityInplace(ColumnWithTypeAndName & column);
}
/// Creates result from right table data in RIGHT and FULL JOIN when keys are not present in left table.
class NotJoinedBlocks final
{
public:
using LeftToRightKeyRemap = std::unordered_map<String, String>;
/// Returns non joined columns from right part of join
class RightColumnsFiller
{
public:
/// Create empty block for right part
virtual Block getEmptyBlock() = 0;
/// Fill columns from right part of join with not joined rows
virtual size_t fillColumns(MutableColumns & columns_right) = 0;
virtual ~RightColumnsFiller() = default;
};
NotJoinedBlocks(std::unique_ptr<RightColumnsFiller> filler_,
const Block & result_sample_block_,
size_t left_columns_count,
const LeftToRightKeyRemap & left_to_right_key_remap);
Block read();
private:
void extractColumnChanges(size_t right_pos, size_t result_pos);
void correctLowcardAndNullability(Block & block);
void addLeftColumns(Block & block, size_t rows_added) const;
void addRightColumns(Block & block, MutableColumns & columns_right) const;
void copySameKeys(Block & block) const;
std::unique_ptr<RightColumnsFiller> filler;
/// Right block saved in Join
Block saved_block_sample;
/// Output of join
Block result_sample_block;
/// Indices of columns in result_sample_block that should be generated
std::vector<size_t> column_indices_left;
/// Indices of columns that come from the right-side table: right_pos -> result_pos
std::unordered_map<size_t, size_t> column_indices_right;
std::unordered_map<size_t, size_t> same_result_keys;
/// Which right columns (saved in parent) need Nullability/LowCardinality change
/// before placing them in result block
std::vector<std::pair<size_t, bool>> right_nullability_changes;
std::vector<std::pair<size_t, bool>> right_lowcard_changes;
void setRightIndex(size_t right_pos, size_t result_position);
};
}