ClickHouse/src/Analyzer/QueryTreeBuilder.cpp

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#include <Analyzer/QueryTreeBuilder.h>
#include <Common/FieldVisitorToString.h>
#include <DataTypes/IDataType.h>
#include <DataTypes/DataTypeTuple.h>
#include <DataTypes/DataTypesNumber.h>
#include <Parsers/ParserSelectQuery.h>
#include <Parsers/ParserSelectWithUnionQuery.h>
#include <Parsers/ASTSelectWithUnionQuery.h>
#include <Parsers/ASTExpressionList.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTAsterisk.h>
#include <Parsers/ASTQualifiedAsterisk.h>
#include <Parsers/ASTColumnsMatcher.h>
#include <Parsers/ASTLiteral.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTSubquery.h>
#include <Parsers/ASTWithElement.h>
#include <Parsers/ASTColumnsTransformers.h>
#include <Analyzer/IdentifierNode.h>
#include <Analyzer/MatcherNode.h>
#include <Analyzer/ColumnTransformers.h>
#include <Analyzer/ConstantNode.h>
#include <Analyzer/ColumnNode.h>
#include <Analyzer/FunctionNode.h>
#include <Analyzer/LambdaNode.h>
#include <Analyzer/TableNode.h>
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#include <Analyzer/TableFunctionNode.h>
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#include <Analyzer/QueryNode.h>
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#include <Analyzer/ArrayJoinNode.h>
#include <Analyzer/JoinNode.h>
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#include <Analyzer/InDepthQueryTreeVisitor.h>
#include <Databases/IDatabase.h>
#include <Interpreters/StorageID.h>
#include <Interpreters/Context.h>
#include <Functions/FunctionFactory.h>
namespace DB
{
namespace ErrorCodes
{
extern const int UNSUPPORTED_METHOD;
extern const int UNKNOWN_DATABASE;
extern const int UNKNOWN_TABLE;
extern const int LOGICAL_ERROR;
extern const int BAD_ARGUMENTS;
}
class QueryTreeBuilder : public WithContext
{
public:
QueryTreeBuilder(ASTPtr query_, ContextPtr context_);
QueryTreeNodePtr getQueryTreeNode()
{
return query_tree_node;
}
private:
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QueryTreeNodePtr getSelectWithUnionExpression(const ASTPtr & select_with_union_query, bool is_subquery, const std::string & cte_name) const;
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QueryTreeNodePtr getSelectExpression(const ASTPtr & select_query, bool is_subquery, const std::string & cte_name) const;
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QueryTreeNodePtr getExpressionList(const ASTPtr & expression_list) const;
QueryTreeNodePtr getExpression(const ASTPtr & expression) const;
QueryTreeNodePtr getFromNode(const ASTPtr & tables_in_select_query) const;
ColumnTransformersNodes getColumnTransformers(const ASTPtr & matcher_expression, size_t start_child_index) const;
ASTPtr query;
QueryTreeNodePtr query_tree_node;
};
QueryTreeBuilder::QueryTreeBuilder(ASTPtr query_, ContextPtr context_)
: WithContext(context_)
, query(query_->clone())
{
if (query->as<ASTSelectWithUnionQuery>())
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query_tree_node = getSelectWithUnionExpression(query, false /*is_subquery*/, {} /*cte_name*/);
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else if (query->as<ASTSelectQuery>())
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query_tree_node = getSelectExpression(query, false /*is_subquery*/, {} /*cte_name*/);
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else if (query->as<ASTExpressionList>())
query_tree_node = getExpressionList(query);
else
query_tree_node = getExpression(query);
}
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QueryTreeNodePtr QueryTreeBuilder::getSelectWithUnionExpression(const ASTPtr & select_with_union_query, bool is_subquery, const std::string & cte_name) const
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{
auto & select_with_union_query_typed = select_with_union_query->as<ASTSelectWithUnionQuery &>();
auto & select_lists = select_with_union_query_typed.list_of_selects->as<ASTExpressionList &>();
if (select_lists.children.size() == 1)
{
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return getSelectExpression(select_with_union_query->children[0]->children[0], is_subquery, cte_name);
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}
else
{
throw Exception(ErrorCodes::UNSUPPORTED_METHOD, "UNION is not supported");
// auto union_expression = UnionExpression::create(is_scalar_query);
// union_expression->getModes() = select_with_union_query_typed.list_of_modes;
// union_expression->getModesSet() = select_with_union_query_typed.set_of_modes;
// auto & select_expressions = union_expression->getSelectExpressions();
// select_expressions.reserve(select_lists.children.size());
// for (const auto & select : select_lists.children)
// {
// auto expression = getSelectExpression(select, false);
// select_expressions.emplace_back(std::move(expression));
// }
// return union_expression;
}
}
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QueryTreeNodePtr QueryTreeBuilder::getSelectExpression(const ASTPtr & select_query, bool is_subquery, const std::string & cte_name) const
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{
const auto & select_query_typed = select_query->as<ASTSelectQuery &>();
auto current_query_tree = std::make_shared<QueryNode>();
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current_query_tree->setIsSubquery(is_subquery);
current_query_tree->setIsCTE(!cte_name.empty());
current_query_tree->setCTEName(cte_name);
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current_query_tree->getFrom() = getFromNode(select_query_typed.tables());
current_query_tree->setOriginalAST(select_query);
auto select_with_list = select_query_typed.with();
if (select_with_list)
{
auto & select_with_list_typed = select_with_list->as<ASTExpressionList &>();
for (auto & expression_part : select_with_list_typed.children)
{
auto expression_node = getExpression(expression_part);
current_query_tree->getWith().getNodes().push_back(expression_node);
}
}
auto select_expression_list = select_query_typed.select();
if (select_expression_list)
{
auto & select_expression_list_typed = select_expression_list->as<ASTExpressionList &>();
for (auto & expression_part : select_expression_list_typed.children)
{
auto expression_node = getExpression(expression_part);
current_query_tree->getProjection().getNodes().push_back(expression_node);
}
}
auto prewhere_expression = select_query_typed.prewhere();
if (prewhere_expression)
current_query_tree->getPrewhere() = getExpression(prewhere_expression);
auto where_expression = select_query_typed.where();
if (where_expression)
current_query_tree->getWhere() = getExpression(where_expression);
return current_query_tree;
}
QueryTreeNodePtr QueryTreeBuilder::getExpressionList(const ASTPtr & expression_list) const
{
auto list_node = std::make_shared<ListNode>();
auto & expression_list_typed = expression_list->as<ASTExpressionList &>();
list_node->getNodes().reserve(expression_list_typed.children.size());
for (auto & expression : expression_list_typed.children)
{
auto expression_node = getExpression(expression);
list_node->getNodes().push_back(std::move(expression_node));
}
return list_node;
}
QueryTreeNodePtr QueryTreeBuilder::getExpression(const ASTPtr & expression) const
{
QueryTreeNodePtr result;
if (const auto * ast_identifier = expression->as<ASTIdentifier>())
{
/// TODO: Identifier as query parameter
auto identifier = Identifier(ast_identifier->name_parts);
result = std::make_shared<IdentifierNode>(std::move(identifier));
}
else if (const auto * asterisk = expression->as<ASTAsterisk>())
{
auto column_transformers = getColumnTransformers(expression, 0 /*start_child_index*/);
result = std::make_shared<MatcherNode>(column_transformers);
}
else if (const auto * qualified_asterisk = expression->as<ASTQualifiedAsterisk>())
{
/// TODO: Identifier with UUID
/// TODO: Currently during query analysis stage we support qualified matchers with any identifier length
/// but ASTTableIdentifier can contain only 2 parts.
auto & qualified_identifier = qualified_asterisk->children.at(0)->as<ASTTableIdentifier &>();
auto column_transformers = getColumnTransformers(expression, 1 /*start_child_index*/);
result = std::make_shared<MatcherNode>(Identifier(qualified_identifier.name_parts), column_transformers);
}
else if (const auto * ast_literal = expression->as<ASTLiteral>())
{
result = std::make_shared<ConstantNode>(ast_literal->value);
}
else if (const auto * function = expression->as<ASTFunction>())
{
if (function->is_lambda_function)
{
const auto & lambda_arguments_and_expression = function->arguments->as<ASTExpressionList &>().children;
auto & lambda_arguments_tuple = lambda_arguments_and_expression.at(0)->as<ASTFunction &>();
auto lambda_arguments_nodes = std::make_shared<ListNode>();
Names lambda_arguments;
NameSet lambda_arguments_set;
if (lambda_arguments_tuple.arguments)
{
const auto & lambda_arguments_list = lambda_arguments_tuple.arguments->as<ASTExpressionList>()->children;
for (const auto & lambda_argument : lambda_arguments_list)
{
const auto * lambda_argument_identifier = lambda_argument->as<ASTIdentifier>();
if (!lambda_argument_identifier)
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Lambda {} argument is not identifier",
function->formatForErrorMessage());
if (lambda_argument_identifier->name_parts.size() > 1)
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Lambda {} argument identifier must contain only argument name. Actual {}",
function->formatForErrorMessage(),
lambda_argument_identifier->full_name);
const auto & argument_name = lambda_argument_identifier->name_parts[0];
auto [_, inserted] = lambda_arguments_set.insert(argument_name);
if (!inserted)
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Lambda {} multiple arguments with same name {}",
function->formatForErrorMessage(),
argument_name);
lambda_arguments.push_back(argument_name);
}
}
const auto & lambda_expression = lambda_arguments_and_expression.at(1);
auto lambda_expression_node = getExpression(lambda_expression);
result = std::make_shared<LambdaNode>(std::move(lambda_arguments), std::move(lambda_expression_node));
}
else
{
auto function_node = std::make_shared<FunctionNode>(function->name);
if (function->parameters)
{
const auto & function_parameters_list = function->parameters->as<ASTExpressionList>()->children;
for (const auto & argument : function_parameters_list)
function_node->getParameters().getNodes().push_back(getExpression(argument));
}
if (function->arguments)
{
const auto & function_arguments_list = function->arguments->as<ASTExpressionList>()->children;
for (const auto & argument : function_arguments_list)
function_node->getArguments().getNodes().push_back(getExpression(argument));
}
result = function_node;
}
}
else if (const auto * subquery = expression->as<ASTSubquery>())
{
auto subquery_query = subquery->children[0];
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auto query_node = getSelectWithUnionExpression(subquery_query, true /*is_subquery*/, {} /*cte_name*/);
result = query_node;
}
else if (const auto * with_element = expression->as<ASTWithElement>())
{
auto with_element_subquery = with_element->subquery->as<ASTSubquery &>().children.at(0);
auto query_node = getSelectWithUnionExpression(with_element_subquery, true /*is_subquery*/, with_element->name /*cte_name*/);
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result = query_node;
}
else if (const auto * columns_regexp_matcher = expression->as<ASTColumnsRegexpMatcher>())
{
auto column_transformers = getColumnTransformers(expression, 0 /*start_child_index*/);
result = std::make_shared<MatcherNode>(columns_regexp_matcher->getMatcher(), std::move(column_transformers));
}
else if (const auto * columns_list_matcher = expression->as<ASTColumnsListMatcher>())
{
Identifiers column_list_identifiers;
column_list_identifiers.reserve(columns_list_matcher->column_list->children.size());
for (auto & column_list_child : columns_list_matcher->column_list->children)
{
auto & column_list_identifier = column_list_child->as<ASTIdentifier &>();
column_list_identifiers.emplace_back(Identifier{column_list_identifier.name_parts});
}
auto column_transformers = getColumnTransformers(expression, 0 /*start_child_index*/);
result = std::make_shared<MatcherNode>(std::move(column_list_identifiers), std::move(column_transformers));
}
else if (const auto * qualified_columns_regexp_matcher = expression->as<ASTQualifiedColumnsRegexpMatcher>())
{
auto & qualified_identifier = qualified_columns_regexp_matcher->children.at(0)->as<ASTTableIdentifier &>();
auto column_transformers = getColumnTransformers(expression, 1 /*start_child_index*/);
result = std::make_shared<MatcherNode>(Identifier(qualified_identifier.name_parts), qualified_columns_regexp_matcher->getMatcher(), std::move(column_transformers));
}
else if (const auto * qualified_columns_list_matcher = expression->as<ASTQualifiedColumnsListMatcher>())
{
auto & qualified_identifier = qualified_columns_list_matcher->children.at(0)->as<ASTTableIdentifier &>();
Identifiers column_list_identifiers;
column_list_identifiers.reserve(qualified_columns_list_matcher->column_list->children.size());
for (auto & column_list_child : qualified_columns_list_matcher->column_list->children)
{
auto & column_list_identifier = column_list_child->as<ASTIdentifier &>();
column_list_identifiers.emplace_back(Identifier{column_list_identifier.name_parts});
}
auto column_transformers = getColumnTransformers(expression, 1 /*start_child_index*/);
result = std::make_shared<MatcherNode>(Identifier(qualified_identifier.name_parts), column_list_identifiers, std::move(column_transformers));
}
else
{
throw Exception(ErrorCodes::UNSUPPORTED_METHOD, "Only literals and constants are supported as expression. Actual {}", expression->formatForErrorMessage());
}
result->setAlias(expression->tryGetAlias());
result->setOriginalAST(expression);
return result;
}
QueryTreeNodePtr QueryTreeBuilder::getFromNode(const ASTPtr & tables_in_select_query) const
{
if (!tables_in_select_query)
{
/** If no table is specified in SELECT query we substitude system.one table.
* SELECT * FROM system.one;
*/
Identifier storage_identifier("system.one");
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return std::make_shared<IdentifierNode>(storage_identifier);
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}
auto & tables = tables_in_select_query->as<ASTTablesInSelectQuery &>();
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QueryTreeNodes table_expressions;
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for (const auto & table_element_untyped : tables.children)
{
const auto & table_element = table_element_untyped->as<ASTTablesInSelectQueryElement &>();
if (table_element.table_expression)
{
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auto & table_expression = table_element.table_expression->as<ASTTableExpression &>();
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if (table_expression.database_and_table_name)
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{
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auto & table_identifier_typed = table_expression.database_and_table_name->as<ASTTableIdentifier &>();
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auto storage_identifier = Identifier(table_identifier_typed.name_parts);
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auto node = std::make_shared<IdentifierNode>(storage_identifier);
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node->setAlias(table_identifier_typed.tryGetAlias());
node->setOriginalAST(table_element.table_expression);
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table_expressions.push_back(std::move(node));
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}
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else if (table_expression.subquery)
{
auto & subquery_expression = table_expression.subquery->as<ASTSubquery &>();
const auto & select_with_union_query = subquery_expression.children[0];
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auto node = getSelectWithUnionExpression(select_with_union_query, true /*is_subquery*/, {} /*cte_name*/);
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node->setAlias(subquery_expression.tryGetAlias());
node->setOriginalAST(select_with_union_query);
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table_expressions.push_back(std::move(node));
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}
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else if (table_expression.table_function)
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{
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auto & table_function_expression = table_expression.table_function->as<ASTFunction &>();
auto node = std::make_shared<TableFunctionNode>(table_function_expression.name);
if (table_function_expression.arguments)
{
const auto & function_arguments_list = table_function_expression.arguments->as<ASTExpressionList>()->children;
for (const auto & argument : function_arguments_list)
node->getArguments().getNodes().push_back(getExpression(argument));
}
node->setAlias(table_function_expression.tryGetAlias());
node->setOriginalAST(table_expression.table_function);
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table_expressions.push_back(std::move(node));
}
else
{
throw Exception(ErrorCodes::UNSUPPORTED_METHOD, "Unsupported table expression node {}", table_element.table_expression->formatForErrorMessage());
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}
}
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if (table_element.table_join)
{
const auto & table_join = table_element.table_join->as<ASTTableJoin &>();
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auto right_table_expression = std::move(table_expressions.back());
table_expressions.pop_back();
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auto left_table_expression = std::move(table_expressions.back());
table_expressions.pop_back();
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QueryTreeNodePtr join_expression;
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if (table_join.using_expression_list)
join_expression = getExpressionList(table_join.using_expression_list);
else if (table_join.on_expression)
join_expression = getExpression(table_join.on_expression);
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auto join_node = std::make_shared<JoinNode>(std::move(left_table_expression),
std::move(right_table_expression),
std::move(join_expression),
table_join.locality,
table_join.strictness,
table_join.kind);
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/** Original AST is not set because it will contain only join part and does
* not include left table expression.
*/
table_expressions.emplace_back(std::move(join_node));
}
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if (table_element.array_join)
{
auto & array_join_expression = table_element.array_join->as<ASTArrayJoin &>();
bool is_left_array_join = array_join_expression.kind == ASTArrayJoin::Kind::Left;
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auto last_table_expression = std::move(table_expressions.back());
table_expressions.pop_back();
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auto array_join_expressions_list = getExpressionList(array_join_expression.expression_list);
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auto array_join_node = std::make_shared<ArrayJoinNode>(std::move(last_table_expression), std::move(array_join_expressions_list), is_left_array_join);
array_join_node->setOriginalAST(table_element.array_join);
table_expressions.push_back(std::move(array_join_node));
}
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}
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if (table_expressions.empty())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Query FROM section cannot be empty");
if (table_expressions.size() > 1)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Query FROM section cannot have more than 1 root table expression");
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return table_expressions.back();
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}
ColumnTransformersNodes QueryTreeBuilder::getColumnTransformers(const ASTPtr & matcher_expression, size_t start_child_index) const
{
ColumnTransformersNodes column_transformers;
size_t children_size = matcher_expression->children.size();
for (; start_child_index < children_size; ++start_child_index)
{
const auto & child = matcher_expression->children[start_child_index];
if (auto * apply_transformer = child->as<ASTColumnsApplyTransformer>())
{
if (apply_transformer->lambda)
{
auto lambda_query_tree_node = getExpression(apply_transformer->lambda);
column_transformers.emplace_back(std::make_shared<ApplyColumnTransformerNode>(std::move(lambda_query_tree_node)));
}
else
{
auto function_node = std::make_shared<FunctionNode>(apply_transformer->func_name);
if (apply_transformer->parameters)
function_node->getParametersNode() = getExpressionList(apply_transformer->parameters);
column_transformers.emplace_back(std::make_shared<ApplyColumnTransformerNode>(std::move(function_node)));
}
}
else if (auto * except_transformer = child->as<ASTColumnsExceptTransformer>())
{
auto matcher = except_transformer->getMatcher();
if (matcher)
{
column_transformers.emplace_back(std::make_shared<ExceptColumnTransformerNode>(std::move(matcher)));
}
else
{
Names except_column_names;
except_column_names.reserve(except_transformer->children.size());
for (auto & except_transformer_child : except_transformer->children)
except_column_names.push_back(except_transformer_child->as<ASTIdentifier &>().full_name);
column_transformers.emplace_back(std::make_shared<ExceptColumnTransformerNode>(std::move(except_column_names), except_transformer->is_strict));
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}
}
else if (auto * replace_transformer = child->as<ASTColumnsReplaceTransformer>())
{
std::vector<ReplaceColumnTransformerNode::Replacement> replacements;
replacements.reserve(replace_transformer->children.size());
for (const auto & replace_transformer_child : replace_transformer->children)
{
auto & replacement = replace_transformer_child->as<ASTColumnsReplaceTransformer::Replacement &>();
replacements.emplace_back(ReplaceColumnTransformerNode::Replacement{replacement.name, getExpression(replacement.expr)});
}
column_transformers.emplace_back(std::make_shared<ReplaceColumnTransformerNode>(replacements, replace_transformer->is_strict));
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}
else
{
throw Exception(ErrorCodes::UNSUPPORTED_METHOD, "Unsupported column matcher {}", child->formatForErrorMessage());
}
}
return column_transformers;
}
QueryTreeNodePtr buildQueryTree(ASTPtr query, ContextPtr context)
{
QueryTreeBuilder builder(query, context);
return builder.getQueryTreeNode();
}
}