ClickHouse/dbms/src/Interpreters/AnalyzedJoin.cpp

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#include <Interpreters/AnalyzedJoin.h>
#include <Interpreters/DatabaseAndTableWithAlias.h>
#include <Interpreters/InterpreterSelectWithUnionQuery.h>
#include <Interpreters/Join.h>
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#include <Parsers/ASTExpressionList.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Parsers/ASTSelectQuery.h>
#include <Core/Block.h>
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#include <Storages/IStorage.h>
#include <DataTypes/DataTypeNullable.h>
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namespace DB
{
void AnalyzedJoin::addUsingKey(const ASTPtr & ast)
{
key_names_left.push_back(ast->getColumnName());
key_names_right.push_back(ast->getAliasOrColumnName());
key_asts_left.push_back(ast);
key_asts_right.push_back(ast);
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auto & right_key = key_names_right.back();
if (renames.count(right_key))
right_key = renames[right_key];
}
void AnalyzedJoin::addOnKeys(ASTPtr & left_table_ast, ASTPtr & right_table_ast)
{
key_names_left.push_back(left_table_ast->getColumnName());
key_names_right.push_back(right_table_ast->getAliasOrColumnName());
key_asts_left.push_back(left_table_ast);
key_asts_right.push_back(right_table_ast);
}
/// @return how many times right key appears in ON section.
size_t AnalyzedJoin::rightKeyInclusion(const String & name) const
{
if (hasUsing())
return 0;
size_t count = 0;
for (const auto & key_name : key_names_right)
if (name == key_name)
++count;
return count;
}
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void AnalyzedJoin::deduplicateAndQualifyColumnNames(const NameSet & left_table_columns, const String & right_table_prefix)
{
NameSet joined_columns;
NamesAndTypesList dedup_columns;
for (auto & column : columns_from_joined_table)
{
if (joined_columns.count(column.name))
continue;
joined_columns.insert(column.name);
dedup_columns.push_back(column);
auto & inserted = dedup_columns.back();
if (left_table_columns.count(column.name))
inserted.name = right_table_prefix + column.name;
original_names[inserted.name] = column.name;
if (inserted.name != column.name)
renames[column.name] = inserted.name;
}
columns_from_joined_table.swap(dedup_columns);
}
NameSet AnalyzedJoin::getQualifiedColumnsSet() const
{
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NameSet out;
for (const auto & names : original_names)
out.insert(names.first);
return out;
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}
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NameSet AnalyzedJoin::getOriginalColumnsSet() const
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{
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NameSet out;
for (const auto & names : original_names)
out.insert(names.second);
return out;
}
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std::unordered_map<String, String> AnalyzedJoin::getOriginalColumnsMap(const NameSet & required_columns) const
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{
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std::unordered_map<String, String> out;
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for (const auto & column : required_columns)
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{
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auto it = original_names.find(column);
if (it != original_names.end())
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out.insert(*it);
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}
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return out;
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}
ASTPtr AnalyzedJoin::leftKeysList() const
{
ASTPtr keys_list = std::make_shared<ASTExpressionList>();
keys_list->children = key_asts_left;
return keys_list;
}
ASTPtr AnalyzedJoin::rightKeysList() const
{
ASTPtr keys_list = std::make_shared<ASTExpressionList>();
if (hasOn())
keys_list->children = key_asts_right;
return keys_list;
}
Names AnalyzedJoin::requiredJoinedNames() const
{
NameSet required_columns_set(key_names_right.begin(), key_names_right.end());
for (const auto & joined_column : columns_added_by_join)
required_columns_set.insert(joined_column.name);
return Names(required_columns_set.begin(), required_columns_set.end());
}
void AnalyzedJoin::appendRequiredColumns(const Block & sample, NameSet & required_columns) const
{
for (auto & column : key_names_right)
if (!sample.has(column))
required_columns.insert(column);
for (auto & column : columns_added_by_join)
if (!sample.has(column.name))
required_columns.insert(column.name);
}
void AnalyzedJoin::addJoinedColumn(const NameAndTypePair & joined_column)
{
if (join_use_nulls && isLeftOrFull(table_join.kind))
{
auto type = joined_column.type->canBeInsideNullable() ? makeNullable(joined_column.type) : joined_column.type;
columns_added_by_join.emplace_back(NameAndTypePair(joined_column.name, std::move(type)));
}
else
columns_added_by_join.push_back(joined_column);
}
void AnalyzedJoin::addJoinedColumnsAndCorrectNullability(Block & sample_block) const
{
bool right_or_full_join = isRightOrFull(table_join.kind);
bool left_or_full_join = isLeftOrFull(table_join.kind);
for (auto & col : sample_block)
{
/// Materialize column.
/// Column is not empty if it is constant, but after Join all constants will be materialized.
/// So, we need remove constants from header.
if (col.column)
col.column = nullptr;
bool make_nullable = join_use_nulls && right_or_full_join;
if (make_nullable && col.type->canBeInsideNullable())
col.type = makeNullable(col.type);
}
for (const auto & col : columns_added_by_join)
{
auto res_type = col.type;
bool make_nullable = join_use_nulls && left_or_full_join;
if (!make_nullable)
{
/// Keys from right table are usually not stored in Join, but copied from the left one.
/// So, if left key is nullable, let's make right key nullable too.
/// Note: for some join types it's not needed and, probably, may be removed.
/// Note: changing this code, take into account the implementation in Join.cpp.
auto it = std::find(key_names_right.begin(), key_names_right.end(), col.name);
if (it != key_names_right.end())
{
auto pos = it - key_names_right.begin();
const auto & left_key_name = key_names_left[pos];
make_nullable = sample_block.getByName(left_key_name).type->isNullable();
}
}
if (make_nullable && res_type->canBeInsideNullable())
res_type = makeNullable(res_type);
sample_block.insert(ColumnWithTypeAndName(nullptr, res_type, col.name));
}
}
bool AnalyzedJoin::sameJoin(const AnalyzedJoin * x, const AnalyzedJoin * y)
{
if (!x && !y)
return true;
if (!x || !y)
return false;
return x->table_join.kind == y->table_join.kind
&& x->table_join.strictness == y->table_join.strictness
&& x->key_names_left == y->key_names_left
&& x->key_names_right == y->key_names_right
&& x->columns_added_by_join == y->columns_added_by_join
&& x->hash_join == y->hash_join;
}
BlockInputStreamPtr AnalyzedJoin::createStreamWithNonJoinedDataIfFullOrRightJoin(const Block & source_header, UInt64 max_block_size) const
{
if (isRightOrFull(table_join.kind))
return hash_join->createStreamWithNonJoinedRows(source_header, *this, max_block_size);
return {};
}
JoinPtr AnalyzedJoin::makeHashJoin(const Block & sample_block, const SizeLimits & size_limits_for_join) const
{
auto join = std::make_shared<Join>(key_names_right, join_use_nulls, size_limits_for_join, table_join.kind, table_join.strictness);
join->setSampleBlock(sample_block);
return join;
}
void AnalyzedJoin::joinBlock(Block & block) const
{
hash_join->joinBlock(block, *this);
}
void AnalyzedJoin::joinTotals(Block & block) const
{
hash_join->joinTotals(block);
}
bool AnalyzedJoin::hasTotals() const
{
return hash_join->hasTotals();
}
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NamesAndTypesList getNamesAndTypeListFromTableExpression(const ASTTableExpression & table_expression, const Context & context)
{
NamesAndTypesList names_and_type_list;
if (table_expression.subquery)
{
const auto & subquery = table_expression.subquery->children.at(0);
names_and_type_list = InterpreterSelectWithUnionQuery::getSampleBlock(subquery, context).getNamesAndTypesList();
}
else if (table_expression.table_function)
{
const auto table_function = table_expression.table_function;
auto query_context = const_cast<Context *>(&context.getQueryContext());
const auto & function_storage = query_context->executeTableFunction(table_function);
names_and_type_list = function_storage->getSampleBlockNonMaterialized().getNamesAndTypesList();
}
else if (table_expression.database_and_table_name)
{
DatabaseAndTableWithAlias database_table(table_expression.database_and_table_name);
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const auto & table = context.getTable(database_table.database, database_table.table);
names_and_type_list = table->getSampleBlockNonMaterialized().getNamesAndTypesList();
}
return names_and_type_list;
}
}