ClickHouse/dbms/src/Parsers/ASTSelectQuery.cpp

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#include <Common/FieldVisitors.h>
#include <Parsers/ASTSetQuery.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTAsterisk.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTSubquery.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Common/typeid_cast.h>
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namespace DB
{
namespace ErrorCodes
{
extern const int UNION_ALL_COLUMN_ALIAS_MISMATCH;
extern const int UNION_ALL_RESULT_STRUCTURES_MISMATCH;
extern const int LOGICAL_ERROR;
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extern const int THERE_IS_NO_COLUMN;
}
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ASTSelectQuery::ASTSelectQuery(const StringRange range_) : ASTQueryWithOutput(range_)
{
}
bool ASTSelectQuery::hasArrayJoin(const ASTPtr & ast)
{
if (const ASTFunction * function = typeid_cast<const ASTFunction *>(&*ast))
if (function->kind == ASTFunction::ARRAY_JOIN)
return true;
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for (const auto & child : ast->children)
if (hasArrayJoin(child))
return true;
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return false;
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}
bool ASTSelectQuery::hasAsterisk() const
{
for (const auto & ast : select_expression_list->children)
if (typeid_cast<const ASTAsterisk *>(&*ast) != nullptr)
return true;
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return false;
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}
void ASTSelectQuery::renameColumns(const ASTSelectQuery & source)
{
const ASTs & from = source.select_expression_list->children;
ASTs & to = select_expression_list->children;
if (from.size() != to.size())
throw Exception("Size mismatch in UNION ALL chain",
DB::ErrorCodes::UNION_ALL_RESULT_STRUCTURES_MISMATCH);
for (size_t i = 0; i < from.size(); ++i)
{
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/// If the column has an alias, it must match the name of the original column.
/// Otherwise, we assign it an alias, if required.
if (!to[i]->tryGetAlias().empty())
{
if (to[i]->tryGetAlias() != from[i]->getAliasOrColumnName())
throw Exception("Column alias mismatch in UNION ALL chain",
DB::ErrorCodes::UNION_ALL_COLUMN_ALIAS_MISMATCH);
}
else if (to[i]->getColumnName() != from[i]->getAliasOrColumnName())
to[i]->setAlias(from[i]->getAliasOrColumnName());
}
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}
void ASTSelectQuery::rewriteSelectExpressionList(const Names & required_column_names)
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{
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/// All columns are kept if we have DISTINCT.
if (distinct)
return;
/** Always keep columns that contain arrayJoin inside.
* In addition, keep all columns in 'required_column_names'.
* If SELECT has at least one asterisk, replace it with the rest of required_column_names
* and ignore all other asterisks.
* We must keep columns in same related order.
*/
/// Analyze existing expression list.
using ASTAndPosition = std::pair<ASTPtr, size_t>;
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std::map<String, ASTAndPosition> columns_with_array_join;
std::map<String, ASTAndPosition> other_required_columns_in_select;
ASTAndPosition asterisk;
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size_t position = 0;
for (const auto & child : select_expression_list->children)
{
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if (typeid_cast<const ASTAsterisk *>(child.get()))
{
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if (!asterisk.first)
asterisk = { child, position };
}
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else
{
auto name = child->getAliasOrColumnName();
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if (hasArrayJoin(child))
columns_with_array_join[name] = { child, position };
else if (required_column_names.end() != std::find(required_column_names.begin(), required_column_names.end(), name))
other_required_columns_in_select[name] = { child, position };
}
++position;
}
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/// Create a new expression list.
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std::vector<ASTAndPosition> new_children;
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for (const auto & name_child : other_required_columns_in_select)
new_children.push_back(name_child.second);
for (const auto & name_child : columns_with_array_join)
new_children.push_back(name_child.second);
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for (const auto & name : required_column_names)
{
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if (!other_required_columns_in_select.count(name) && !columns_with_array_join.count(name))
{
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if (asterisk.first)
new_children.push_back({ std::make_shared<ASTIdentifier>(asterisk.first->range, name), asterisk.second });
else
throw Exception("SELECT query doesn't have required column: " + backQuoteIfNeed(name), ErrorCodes::THERE_IS_NO_COLUMN);
}
}
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std::sort(new_children.begin(), new_children.end(), [](const auto & a, const auto & b) { return a.second < b.second; });
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ASTPtr result = std::make_shared<ASTExpressionList>();
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for (const auto & child : new_children)
result->children.push_back(child.first);
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/// Replace expression list in the query.
for (auto & child : children)
{
if (child == select_expression_list)
{
child = result;
break;
}
}
select_expression_list = result;
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/** NOTE: It might seem that we could spoil the query by throwing an expression with an alias that is used somewhere else.
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* This can not happen, because this method is always called for a query, for which ExpressionAnalyzer was created at least once,
* which ensures that all aliases in it are already set. Not quite obvious logic.
*/
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}
ASTPtr ASTSelectQuery::clone() const
{
auto ptr = cloneImpl(true);
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/// Set pointers to previous SELECT queries.
ASTPtr current = ptr;
static_cast<ASTSelectQuery *>(current.get())->prev_union_all = nullptr;
ASTPtr next = static_cast<ASTSelectQuery *>(current.get())->next_union_all;
while (next != nullptr)
{
ASTSelectQuery * next_select_query = static_cast<ASTSelectQuery *>(next.get());
next_select_query->prev_union_all = current.get();
current = next;
next = next_select_query->next_union_all;
}
cloneOutputOptions(*ptr);
return ptr;
}
std::shared_ptr<ASTSelectQuery> ASTSelectQuery::cloneFirstSelect() const
{
auto res = cloneImpl(false);
res->prev_union_all = nullptr;
return res;
}
std::shared_ptr<ASTSelectQuery> ASTSelectQuery::cloneImpl(bool traverse_union_all) const
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{
auto res = std::make_shared<ASTSelectQuery>(*this);
res->children.clear();
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#define CLONE(member) if (member) { res->member = member->clone(); res->children.push_back(res->member); }
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/** NOTE Members must clone exactly in the same order,
* in which they were inserted into `children` in ParserSelectQuery.
* This is important because of the children's names the identifier (getTreeID) is compiled,
* which can be used for column identifiers in the case of subqueries in the IN statement.
* For distributed query processing, in case one of the servers is localhost and the other one is not,
* localhost query is executed within the process and is cloned,
* and the request is sent to the remote server in text form via TCP.
* And if the cloning order does not match the parsing order,
* then different servers will get different identifiers.
*/
CLONE(with_expression_list)
CLONE(select_expression_list)
CLONE(tables)
CLONE(prewhere_expression)
CLONE(where_expression)
CLONE(group_expression_list)
CLONE(having_expression)
CLONE(order_expression_list)
CLONE(limit_by_value)
CLONE(limit_by_expression_list)
CLONE(limit_offset)
CLONE(limit_length)
CLONE(settings)
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#undef CLONE
if (traverse_union_all)
{
if (next_union_all)
{
res->next_union_all = static_cast<const ASTSelectQuery *>(&*next_union_all)->cloneImpl(true);
res->children.push_back(res->next_union_all);
}
}
else
res->next_union_all = nullptr;
return res;
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}
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void ASTSelectQuery::formatQueryImpl(const FormatSettings & s, FormatState & state, FormatStateStacked frame) const
{
frame.current_select = this;
frame.need_parens = false;
std::string indent_str = s.one_line ? "" : std::string(4 * frame.indent, ' ');
if (with_expression_list)
{
s.ostr << (s.hilite ? hilite_keyword : "") << indent_str << "WITH " << (s.hilite ? hilite_none : "");
s.one_line
? with_expression_list->formatImpl(s, state, frame)
: typeid_cast<const ASTExpressionList &>(*with_expression_list).formatImplMultiline(s, state, frame);
s.ostr << s.nl_or_ws;
}
s.ostr << (s.hilite ? hilite_keyword : "") << indent_str << "SELECT " << (distinct ? "DISTINCT " : "") << (s.hilite ? hilite_none : "");
s.one_line
? select_expression_list->formatImpl(s, state, frame)
: typeid_cast<const ASTExpressionList &>(*select_expression_list).formatImplMultiline(s, state, frame);
if (tables)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "FROM " << (s.hilite ? hilite_none : "");
tables->formatImpl(s, state, frame);
}
if (prewhere_expression)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "PREWHERE " << (s.hilite ? hilite_none : "");
prewhere_expression->formatImpl(s, state, frame);
}
if (where_expression)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "WHERE " << (s.hilite ? hilite_none : "");
where_expression->formatImpl(s, state, frame);
}
if (group_expression_list)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "GROUP BY " << (s.hilite ? hilite_none : "");
s.one_line
? group_expression_list->formatImpl(s, state, frame)
: typeid_cast<const ASTExpressionList &>(*group_expression_list).formatImplMultiline(s, state, frame);
}
if (group_by_with_totals)
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << (s.one_line ? "" : " ") << "WITH TOTALS" << (s.hilite ? hilite_none : "");
if (having_expression)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "HAVING " << (s.hilite ? hilite_none : "");
having_expression->formatImpl(s, state, frame);
}
if (order_expression_list)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "ORDER BY " << (s.hilite ? hilite_none : "");
s.one_line
? order_expression_list->formatImpl(s, state, frame)
: typeid_cast<const ASTExpressionList &>(*order_expression_list).formatImplMultiline(s, state, frame);
}
if (limit_by_value)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "LIMIT " << (s.hilite ? hilite_none : "");
limit_by_value->formatImpl(s, state, frame);
s.ostr << (s.hilite ? hilite_keyword : "") << " BY " << (s.hilite ? hilite_none : "");
s.one_line
? limit_by_expression_list->formatImpl(s, state, frame)
: typeid_cast<const ASTExpressionList &>(*limit_by_expression_list).formatImplMultiline(s, state, frame);
}
if (limit_length)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "LIMIT " << (s.hilite ? hilite_none : "");
if (limit_offset)
{
limit_offset->formatImpl(s, state, frame);
s.ostr << ", ";
}
limit_length->formatImpl(s, state, frame);
}
if (settings)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "SETTINGS " << (s.hilite ? hilite_none : "");
settings->formatImpl(s, state, frame);
}
if (next_union_all)
{
s.ostr << (s.hilite ? hilite_keyword : "") << s.nl_or_ws << indent_str << "UNION ALL " << s.nl_or_ws << (s.hilite ? hilite_none : "");
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// NOTE We can safely apply `static_cast` instead of `typeid_cast` because we know that in the `UNION ALL` chain
// there are only trees of type SELECT.
const ASTSelectQuery & next_ast = static_cast<const ASTSelectQuery &>(*next_union_all);
next_ast.formatImpl(s, state, frame);
}
}
/// Compatibility functions. TODO Remove.
static const ASTTableExpression * getFirstTableExpression(const ASTSelectQuery & select)
{
if (!select.tables)
return {};
const ASTTablesInSelectQuery & tables_in_select_query = static_cast<const ASTTablesInSelectQuery &>(*select.tables);
if (tables_in_select_query.children.empty())
return {};
const ASTTablesInSelectQueryElement & tables_element = static_cast<const ASTTablesInSelectQueryElement &>(*tables_in_select_query.children[0]);
if (!tables_element.table_expression)
return {};
return static_cast<const ASTTableExpression *>(tables_element.table_expression.get());
}
static ASTTableExpression * getFirstTableExpression(ASTSelectQuery & select)
{
if (!select.tables)
return {};
ASTTablesInSelectQuery & tables_in_select_query = static_cast<ASTTablesInSelectQuery &>(*select.tables);
if (tables_in_select_query.children.empty())
return {};
ASTTablesInSelectQueryElement & tables_element = static_cast<ASTTablesInSelectQueryElement &>(*tables_in_select_query.children[0]);
if (!tables_element.table_expression)
return {};
return static_cast<ASTTableExpression *>(tables_element.table_expression.get());
}
static const ASTArrayJoin * getFirstArrayJoin(const ASTSelectQuery & select)
{
if (!select.tables)
return {};
const ASTTablesInSelectQuery & tables_in_select_query = static_cast<const ASTTablesInSelectQuery &>(*select.tables);
if (tables_in_select_query.children.empty())
return {};
const ASTArrayJoin * array_join = nullptr;
for (const auto & child : tables_in_select_query.children)
{
const ASTTablesInSelectQueryElement & tables_element = static_cast<const ASTTablesInSelectQueryElement &>(*child);
if (tables_element.array_join)
{
if (!array_join)
array_join = static_cast<const ASTArrayJoin *>(tables_element.array_join.get());
else
throw Exception("Support for more than one ARRAY JOIN in query is not implemented", ErrorCodes::NOT_IMPLEMENTED);
}
}
return array_join;
}
static const ASTTablesInSelectQueryElement * getFirstTableJoin(const ASTSelectQuery & select)
{
if (!select.tables)
return {};
const ASTTablesInSelectQuery & tables_in_select_query = static_cast<const ASTTablesInSelectQuery &>(*select.tables);
if (tables_in_select_query.children.empty())
return {};
const ASTTablesInSelectQueryElement * joined_table = nullptr;
for (const auto & child : tables_in_select_query.children)
{
const ASTTablesInSelectQueryElement & tables_element = static_cast<const ASTTablesInSelectQueryElement &>(*child);
if (tables_element.table_join)
{
if (!joined_table)
joined_table = &tables_element;
else
throw Exception("Support for more than one JOIN in query is not implemented", ErrorCodes::NOT_IMPLEMENTED);
}
}
return joined_table;
}
ASTPtr ASTSelectQuery::database() const
{
const ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression || !table_expression->database_and_table_name || table_expression->database_and_table_name->children.empty())
return {};
if (table_expression->database_and_table_name->children.size() != 2)
throw Exception("Logical error: more than two components in table expression", ErrorCodes::LOGICAL_ERROR);
return table_expression->database_and_table_name->children[0];
}
ASTPtr ASTSelectQuery::table() const
{
const ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
return {};
if (table_expression->database_and_table_name)
{
if (table_expression->database_and_table_name->children.empty())
return table_expression->database_and_table_name;
if (table_expression->database_and_table_name->children.size() != 2)
throw Exception("Logical error: more than two components in table expression", ErrorCodes::LOGICAL_ERROR);
return table_expression->database_and_table_name->children[1];
}
if (table_expression->table_function)
return table_expression->table_function;
if (table_expression->subquery)
return static_cast<const ASTSubquery *>(table_expression->subquery.get())->children.at(0);
throw Exception("Logical error: incorrect table expression", ErrorCodes::LOGICAL_ERROR);
}
ASTPtr ASTSelectQuery::sample_size() const
{
const ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
return {};
return table_expression->sample_size;
}
ASTPtr ASTSelectQuery::sample_offset() const
{
const ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
return {};
return table_expression->sample_offset;
}
bool ASTSelectQuery::final() const
{
const ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
return {};
return table_expression->final;
}
ASTPtr ASTSelectQuery::array_join_expression_list() const
{
const ASTArrayJoin * array_join = getFirstArrayJoin(*this);
if (!array_join)
return {};
return array_join->expression_list;
}
bool ASTSelectQuery::array_join_is_left() const
{
const ASTArrayJoin * array_join = getFirstArrayJoin(*this);
if (!array_join)
return {};
return array_join->kind == ASTArrayJoin::Kind::Left;
}
const ASTTablesInSelectQueryElement * ASTSelectQuery::join() const
{
return getFirstTableJoin(*this);
}
void ASTSelectQuery::setDatabaseIfNeeded(const String & database_name)
{
ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
return;
if (!table_expression->database_and_table_name)
return;
if (table_expression->database_and_table_name->children.empty())
{
ASTPtr database = std::make_shared<ASTIdentifier>(StringRange(), database_name, ASTIdentifier::Database);
ASTPtr table = table_expression->database_and_table_name;
const String & old_name = static_cast<ASTIdentifier &>(*table_expression->database_and_table_name).name;
table_expression->database_and_table_name = std::make_shared<ASTIdentifier>(StringRange(), database_name + "." + old_name, ASTIdentifier::Table);
table_expression->database_and_table_name->children = {database, table};
}
else if (table_expression->database_and_table_name->children.size() != 2)
{
throw Exception("Logical error: more than two components in table expression", ErrorCodes::LOGICAL_ERROR);
}
}
void ASTSelectQuery::replaceDatabaseAndTable(const String & database_name, const String & table_name)
{
ASTTableExpression * table_expression = getFirstTableExpression(*this);
if (!table_expression)
{
auto tables_list = std::make_shared<ASTTablesInSelectQuery>();
auto element = std::make_shared<ASTTablesInSelectQueryElement>();
auto table_expr = std::make_shared<ASTTableExpression>();
element->table_expression = table_expr;
element->children.emplace_back(table_expr);
tables_list->children.emplace_back(element);
tables = tables_list;
children.emplace_back(tables_list);
table_expression = table_expr.get();
}
ASTPtr table = std::make_shared<ASTIdentifier>(StringRange(), table_name, ASTIdentifier::Table);
if (!database_name.empty())
{
ASTPtr database = std::make_shared<ASTIdentifier>(StringRange(), database_name, ASTIdentifier::Database);
table_expression->database_and_table_name = std::make_shared<ASTIdentifier>(
StringRange(), database_name + "." + table_name, ASTIdentifier::Table);
table_expression->database_and_table_name->children = {database, table};
}
else
{
table_expression->database_and_table_name = std::make_shared<ASTIdentifier>(
StringRange(), table_name, ASTIdentifier::Table);
}
}
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};