ClickHouse/src/Interpreters/TreeRewriter.cpp

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#include <algorithm>
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#include <Core/Settings.h>
#include <Core/NamesAndTypes.h>
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#include <Common/checkStackSize.h>
#include <Interpreters/TreeRewriter.h>
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#include <Interpreters/LogicalExpressionsOptimizer.h>
#include <Interpreters/QueryAliasesVisitor.h>
#include <Interpreters/ArrayJoinedColumnsVisitor.h>
#include <Interpreters/TranslateQualifiedNamesVisitor.h>
#include <Interpreters/Context.h>
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#include <Interpreters/FunctionNameNormalizer.h>
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#include <Interpreters/MarkTableIdentifiersVisitor.h>
#include <Interpreters/QueryNormalizer.h>
#include <Interpreters/GroupingSetsRewriterVisitor.h>
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#include <Interpreters/ExecuteScalarSubqueriesVisitor.h>
#include <Interpreters/CollectJoinOnKeysVisitor.h>
#include <Interpreters/RequiredSourceColumnsVisitor.h>
#include <Interpreters/GetAggregatesVisitor.h>
#include <Interpreters/UserDefinedSQLFunctionVisitor.h>
#include <Interpreters/TableJoin.h>
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#include <Interpreters/ExpressionActions.h> /// getSmallestColumn()
#include <Interpreters/getTableExpressions.h>
#include <Interpreters/TreeOptimizer.h>
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#include <Interpreters/replaceAliasColumnsInQuery.h>
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#include <Interpreters/evaluateConstantExpression.h>
#include <Interpreters/PredicateExpressionsOptimizer.h>
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#include <Parsers/ASTExpressionList.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTLiteral.h>
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#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTSelectWithUnionQuery.h>
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#include <Parsers/ASTTablesInSelectQuery.h>
#include <Parsers/ASTInterpolateElement.h>
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#include <Parsers/queryToString.h>
#include <DataTypes/NestedUtils.h>
#include <DataTypes/DataTypeNullable.h>
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#include <DataTypes/DataTypeLowCardinality.h>
#include <DataTypes/DataTypesNumber.h>
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#include <IO/WriteHelpers.h>
#include <Storages/IStorage.h>
#include <AggregateFunctions/AggregateFunctionFactory.h>
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namespace DB
{
namespace ErrorCodes
{
extern const int EMPTY_LIST_OF_COLUMNS_QUERIED;
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extern const int EMPTY_NESTED_TABLE;
extern const int EXPECTED_ALL_OR_ANY;
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extern const int INVALID_JOIN_ON_EXPRESSION;
extern const int LOGICAL_ERROR;
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extern const int NOT_IMPLEMENTED;
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
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extern const int UNKNOWN_IDENTIFIER;
}
namespace
{
using LogAST = DebugASTLog<false>; /// set to true to enable logs
void optimizeGroupingSets(ASTPtr & query)
{
GroupingSetsRewriterVisitor::Data data;
GroupingSetsRewriterVisitor(data).visit(query);
}
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/// Select implementation of a function based on settings.
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/// Important that it is done as query rewrite. It means rewritten query
/// will be sent to remote servers during distributed query execution,
/// and on all remote servers, function implementation will be same.
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template <char const * func_name>
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struct CustomizeFunctionsData
{
using TypeToVisit = ASTFunction;
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const String & customized_func_name;
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void visit(ASTFunction & func, ASTPtr &) const
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{
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if (Poco::toLower(func.name) == func_name)
{
func.name = customized_func_name;
}
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}
};
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char countdistinct[] = "countdistinct";
using CustomizeCountDistinctVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<countdistinct>>, true>;
char countifdistinct[] = "countifdistinct";
using CustomizeCountIfDistinctVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<countifdistinct>>, true>;
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char in[] = "in";
using CustomizeInVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<in>>, true>;
char notIn[] = "notin";
using CustomizeNotInVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<notIn>>, true>;
char globalIn[] = "globalin";
using CustomizeGlobalInVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<globalIn>>, true>;
char globalNotIn[] = "globalnotin";
using CustomizeGlobalNotInVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsData<globalNotIn>>, true>;
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template <char const * func_suffix>
struct CustomizeFunctionsSuffixData
{
using TypeToVisit = ASTFunction;
const String & customized_func_suffix;
void visit(ASTFunction & func, ASTPtr &) const
{
if (endsWith(Poco::toLower(func.name), func_suffix))
{
size_t prefix_len = func.name.length() - strlen(func_suffix);
func.name = func.name.substr(0, prefix_len) + customized_func_suffix;
}
}
};
/// Swap 'if' and 'distinct' suffixes to make execution more optimal.
char ifDistinct[] = "ifdistinct";
using CustomizeIfDistinctVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeFunctionsSuffixData<ifDistinct>>, true>;
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/// Used to rewrite all aggregate functions to add -OrNull suffix to them if setting `aggregate_functions_null_for_empty` is set.
struct CustomizeAggregateFunctionsSuffixData
{
using TypeToVisit = ASTFunction;
const String & customized_func_suffix;
void visit(ASTFunction & func, ASTPtr &) const
{
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const auto & instance = AggregateFunctionFactory::instance();
if (instance.isAggregateFunctionName(func.name) && !endsWith(func.name, customized_func_suffix))
{
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auto properties = instance.tryGetProperties(func.name);
if (properties && !properties->returns_default_when_only_null)
{
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func.name += customized_func_suffix;
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}
}
}
};
// Used to rewrite aggregate functions with -OrNull suffix in some cases, such as sumIfOrNull, we should rewrite to sumOrNullIf
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struct CustomizeAggregateFunctionsMoveSuffixData
{
using TypeToVisit = ASTFunction;
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const String & customized_func_suffix;
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String moveSuffixAhead(const String & name) const
{
auto prefix = name.substr(0, name.size() - customized_func_suffix.size());
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auto prefix_size = prefix.size();
if (endsWith(prefix, "MergeState"))
return prefix.substr(0, prefix_size - 10) + customized_func_suffix + "MergeState";
if (endsWith(prefix, "Merge"))
return prefix.substr(0, prefix_size - 5) + customized_func_suffix + "Merge";
if (endsWith(prefix, "State"))
return prefix.substr(0, prefix_size - 5) + customized_func_suffix + "State";
if (endsWith(prefix, "If"))
return prefix.substr(0, prefix_size - 2) + customized_func_suffix + "If";
return name;
}
void visit(ASTFunction & func, ASTPtr &) const
{
const auto & instance = AggregateFunctionFactory::instance();
if (instance.isAggregateFunctionName(func.name))
{
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if (endsWith(func.name, customized_func_suffix))
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{
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auto properties = instance.tryGetProperties(func.name);
if (properties && !properties->returns_default_when_only_null)
{
func.name = moveSuffixAhead(func.name);
}
}
}
}
};
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struct FuseSumCountAggregates
{
std::vector<ASTFunction *> sums {};
std::vector<ASTFunction *> counts {};
std::vector<ASTFunction *> avgs {};
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void addFuncNode(ASTFunction * func)
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{
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if (func->name == "sum")
sums.push_back(func);
else if (func->name == "count")
counts.push_back(func);
else
{
assert(func->name == "avg");
avgs.push_back(func);
}
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}
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bool canBeFused() const
{
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// Need at least two different kinds of functions to fuse.
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if (sums.empty() && counts.empty())
return false;
if (sums.empty() && avgs.empty())
return false;
if (counts.empty() && avgs.empty())
return false;
return true;
}
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};
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struct FuseSumCountAggregatesVisitorData
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{
using TypeToVisit = ASTFunction;
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std::unordered_map<String, FuseSumCountAggregates> fuse_map;
void visit(ASTFunction & func, ASTPtr &)
{
if (func.name == "sum" || func.name == "avg" || func.name == "count")
{
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if (func.arguments->children.empty())
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return;
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// Probably we can extend it to match count() for non-nullable argument
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// to sum/avg with any other argument. Now we require strict match.
const auto argument = func.arguments->children.at(0)->getColumnName();
auto it = fuse_map.find(argument);
if (it != fuse_map.end())
{
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it->second.addFuncNode(&func);
}
else
{
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FuseSumCountAggregates funcs{};
funcs.addFuncNode(&func);
fuse_map[argument] = funcs;
}
}
}
};
using CustomizeAggregateFunctionsOrNullVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeAggregateFunctionsSuffixData>, true>;
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using CustomizeAggregateFunctionsMoveOrNullVisitor = InDepthNodeVisitor<OneTypeMatcher<CustomizeAggregateFunctionsMoveSuffixData>, true>;
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using FuseSumCountAggregatesVisitor = InDepthNodeVisitor<OneTypeMatcher<FuseSumCountAggregatesVisitorData>, true>;
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struct ExistsExpressionData
{
using TypeToVisit = ASTFunction;
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static void visit(ASTFunction & func, ASTPtr)
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{
bool exists_expression = func.name == "exists"
&& func.arguments && func.arguments->children.size() == 1
&& typeid_cast<const ASTSubquery *>(func.arguments->children[0].get());
if (!exists_expression)
return;
/// EXISTS(subquery) --> 1 IN (SELECT 1 FROM subquery LIMIT 1)
auto subquery_node = func.arguments->children[0];
auto table_expression = std::make_shared<ASTTableExpression>();
table_expression->subquery = std::move(subquery_node);
table_expression->children.push_back(table_expression->subquery);
auto tables_in_select_element = std::make_shared<ASTTablesInSelectQueryElement>();
tables_in_select_element->table_expression = std::move(table_expression);
tables_in_select_element->children.push_back(tables_in_select_element->table_expression);
auto tables_in_select = std::make_shared<ASTTablesInSelectQuery>();
tables_in_select->children.push_back(std::move(tables_in_select_element));
auto select_expr_list = std::make_shared<ASTExpressionList>();
select_expr_list->children.push_back(std::make_shared<ASTLiteral>(1u));
auto select_query = std::make_shared<ASTSelectQuery>();
select_query->children.push_back(select_expr_list);
select_query->setExpression(ASTSelectQuery::Expression::SELECT, select_expr_list);
select_query->setExpression(ASTSelectQuery::Expression::TABLES, tables_in_select);
ASTPtr limit_length_ast = std::make_shared<ASTLiteral>(Field(static_cast<UInt64>(1)));
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select_query->setExpression(ASTSelectQuery::Expression::LIMIT_LENGTH, std::move(limit_length_ast));
auto select_with_union_query = std::make_shared<ASTSelectWithUnionQuery>();
select_with_union_query->list_of_selects = std::make_shared<ASTExpressionList>();
select_with_union_query->list_of_selects->children.push_back(std::move(select_query));
select_with_union_query->children.push_back(select_with_union_query->list_of_selects);
auto new_subquery = std::make_shared<ASTSubquery>();
new_subquery->children.push_back(select_with_union_query);
auto function = makeASTFunction("in", std::make_shared<ASTLiteral>(1u), new_subquery);
func = *function;
}
};
using ExistsExpressionVisitor = InDepthNodeVisitor<OneTypeMatcher<ExistsExpressionData>, false>;
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/// Translate qualified names such as db.table.column, table.column, table_alias.column to names' normal form.
/// Expand asterisks and qualified asterisks with column names.
/// There would be columns in normal form & column aliases after translation. Column & column alias would be normalized in QueryNormalizer.
void translateQualifiedNames(ASTPtr & query, const ASTSelectQuery & select_query, const NameSet & source_columns_set,
const TablesWithColumns & tables_with_columns)
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{
LogAST log;
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TranslateQualifiedNamesVisitor::Data visitor_data(source_columns_set, tables_with_columns);
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TranslateQualifiedNamesVisitor visitor(visitor_data, log.stream());
visitor.visit(query);
/// This may happen after expansion of COLUMNS('regexp').
if (select_query.select()->children.empty())
throw Exception("Empty list of columns in SELECT query", ErrorCodes::EMPTY_LIST_OF_COLUMNS_QUERIED);
}
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// Replaces one avg/sum/count function with an appropriate expression with
// sumCount().
void replaceWithSumCount(String column_name, ASTFunction & func)
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{
auto func_base = makeASTFunction("sumCount", std::make_shared<ASTIdentifier>(column_name));
auto exp_list = std::make_shared<ASTExpressionList>();
if (func.name == "sum" || func.name == "count")
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{
/// Rewrite "sum" to sumCount().1, rewrite "count" to sumCount().2
UInt8 idx = (func.name == "sum" ? 1 : 2);
func.name = "tupleElement";
exp_list->children.push_back(func_base);
exp_list->children.push_back(std::make_shared<ASTLiteral>(idx));
}
else
{
/// Rewrite "avg" to sumCount().1 / sumCount().2
auto new_arg1 = makeASTFunction("tupleElement", func_base, std::make_shared<ASTLiteral>(UInt8(1)));
auto new_arg2 = makeASTFunction("CAST",
makeASTFunction("tupleElement", func_base, std::make_shared<ASTLiteral>(static_cast<UInt8>(2))),
std::make_shared<ASTLiteral>("Float64"));
func.name = "divide";
exp_list->children.push_back(new_arg1);
exp_list->children.push_back(new_arg2);
}
func.arguments = exp_list;
func.children.push_back(func.arguments);
}
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void fuseSumCountAggregates(std::unordered_map<String, FuseSumCountAggregates> & fuse_map)
{
for (auto & it : fuse_map)
{
if (it.second.canBeFused())
{
for (auto & func: it.second.sums)
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replaceWithSumCount(it.first, *func);
for (auto & func: it.second.avgs)
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replaceWithSumCount(it.first, *func);
for (auto & func: it.second.counts)
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replaceWithSumCount(it.first, *func);
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}
}
}
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bool hasArrayJoin(const ASTPtr & ast)
{
if (const ASTFunction * function = ast->as<ASTFunction>())
if (function->name == "arrayJoin")
return true;
for (const auto & child : ast->children)
if (!child->as<ASTSelectQuery>() && hasArrayJoin(child))
return true;
return false;
}
/// Keep number of columns for 'GLOBAL IN (SELECT 1 AS a, a)'
void renameDuplicatedColumns(const ASTSelectQuery * select_query)
{
ASTs & elements = select_query->select()->children;
std::set<String> all_column_names;
std::set<String> assigned_column_names;
for (auto & expr : elements)
all_column_names.insert(expr->getAliasOrColumnName());
for (auto & expr : elements)
{
auto name = expr->getAliasOrColumnName();
if (!assigned_column_names.insert(name).second)
{
size_t i = 1;
while (all_column_names.end() != all_column_names.find(name + "_" + toString(i)))
++i;
name = name + "_" + toString(i);
expr = expr->clone(); /// Cancels fuse of the same expressions in the tree.
expr->setAlias(name);
all_column_names.insert(name);
assigned_column_names.insert(name);
}
}
}
/// Sometimes we have to calculate more columns in SELECT clause than will be returned from query.
/// This is the case when we have DISTINCT or arrayJoin: we require more columns in SELECT even if we need less columns in result.
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/// Also we have to remove duplicates in case of GLOBAL subqueries. Their results are placed into tables so duplicates are impossible.
/// Also remove all INTERPOLATE columns which are not in SELECT anymore.
void removeUnneededColumnsFromSelectClause(ASTSelectQuery * select_query, const Names & required_result_columns, bool remove_dups, bool reorder_columns_as_required_header)
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{
ASTs & elements = select_query->select()->children;
std::map<String, size_t> required_columns_with_duplicate_count;
if (!required_result_columns.empty())
{
/// Some columns may be queried multiple times, like SELECT x, y, y FROM table.
for (const auto & name : required_result_columns)
{
if (remove_dups)
required_columns_with_duplicate_count[name] = 1;
else
++required_columns_with_duplicate_count[name];
}
}
else if (remove_dups)
{
/// Even if we have no requirements there could be duplicates cause of asterisks. SELECT *, t.*
for (const auto & elem : elements)
required_columns_with_duplicate_count.emplace(elem->getAliasOrColumnName(), 1);
}
else
return;
ASTs new_elements;
new_elements.reserve(elements.size());
NameSet remove_columns;
/// Resort columns according to required_result_columns.
if (reorder_columns_as_required_header && !required_result_columns.empty())
{
std::unordered_map<String, size_t> name_pos;
{
size_t pos = 0;
for (const auto & name : required_result_columns)
name_pos[name] = pos++;
}
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::sort(elements.begin(), elements.end(), [&](const auto & lhs, const auto & rhs)
{
String lhs_name = lhs->getAliasOrColumnName();
String rhs_name = rhs->getAliasOrColumnName();
size_t lhs_pos = name_pos.size();
size_t rhs_pos = name_pos.size();
if (auto it = name_pos.find(lhs_name); it != name_pos.end())
lhs_pos = it->second;
if (auto it = name_pos.find(rhs_name); it != name_pos.end())
rhs_pos = it->second;
return lhs_pos < rhs_pos;
});
}
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for (const auto & elem : elements)
{
String name = elem->getAliasOrColumnName();
auto it = required_columns_with_duplicate_count.find(name);
if (required_columns_with_duplicate_count.end() != it && it->second)
{
new_elements.push_back(elem);
--it->second;
}
else if (select_query->distinct || hasArrayJoin(elem))
{
/// ARRAY JOIN cannot be optimized out since it may change number of rows,
/// so as DISTINCT.
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new_elements.push_back(elem);
}
else
{
remove_columns.insert(name);
ASTFunction * func = elem->as<ASTFunction>();
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/// Never remove untuple. It's result column may be in required columns.
/// It is not easy to analyze untuple here, because types were not calculated yet.
if (func && func->name == "untuple")
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new_elements.push_back(elem);
/// removing aggregation can change number of rows, so `count()` result in outer sub-query would be wrong
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if (func && AggregateUtils::isAggregateFunction(*func) && !select_query->groupBy())
new_elements.push_back(elem);
}
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}
if (select_query->interpolate())
{
auto & children = select_query->interpolate()->children;
if (!children.empty())
{
for (auto it = children.begin(); it != children.end();)
{
if (remove_columns.contains((*it)->as<ASTInterpolateElement>()->column))
it = select_query->interpolate()->children.erase(it);
else
++it;
}
if (children.empty())
select_query->setExpression(ASTSelectQuery::Expression::INTERPOLATE, nullptr);
}
}
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elements = std::move(new_elements);
}
/// Replacing scalar subqueries with constant values.
void executeScalarSubqueries(
ASTPtr & query, ContextPtr context, size_t subquery_depth, Scalars & scalars, Scalars & local_scalars, bool only_analyze)
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{
LogAST log;
ExecuteScalarSubqueriesVisitor::Data visitor_data{WithContext{context}, subquery_depth, scalars, local_scalars, only_analyze};
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ExecuteScalarSubqueriesVisitor(visitor_data, log.stream()).visit(query);
}
void getArrayJoinedColumns(ASTPtr & query, TreeRewriterResult & result, const ASTSelectQuery * select_query,
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const NamesAndTypesList & source_columns, const NameSet & source_columns_set)
{
if (!select_query->arrayJoinExpressionList().first)
return;
ArrayJoinedColumnsVisitor::Data visitor_data{
result.aliases, result.array_join_name_to_alias, result.array_join_alias_to_name, result.array_join_result_to_source};
ArrayJoinedColumnsVisitor(visitor_data).visit(query);
/// If the result of ARRAY JOIN is not used, it is necessary to ARRAY-JOIN any column,
/// to get the correct number of rows.
if (result.array_join_result_to_source.empty())
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{
if (select_query->arrayJoinExpressionList().first->children.empty())
throw DB::Exception("ARRAY JOIN requires an argument", ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH);
ASTPtr expr = select_query->arrayJoinExpressionList().first->children.at(0);
String source_name = expr->getColumnName();
String result_name = expr->getAliasOrColumnName();
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/// This is an array.
if (!expr->as<ASTIdentifier>() || source_columns_set.contains(source_name))
{
result.array_join_result_to_source[result_name] = source_name;
}
else /// This is a nested table.
{
bool found = false;
for (const auto & column : source_columns)
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{
auto split = Nested::splitName(column.name, /*reverse=*/ true);
if (split.first == source_name && !split.second.empty())
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{
result.array_join_result_to_source[Nested::concatenateName(result_name, split.second)] = column.name;
found = true;
break;
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}
}
if (!found)
throw Exception("No columns in nested table " + source_name, ErrorCodes::EMPTY_NESTED_TABLE);
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}
}
}
void setJoinStrictness(ASTSelectQuery & select_query, JoinStrictness join_default_strictness, bool old_any, ASTTableJoin & out_table_join)
{
const ASTTablesInSelectQueryElement * node = select_query.join();
if (!node)
return;
auto & table_join = const_cast<ASTTablesInSelectQueryElement *>(node)->table_join->as<ASTTableJoin &>();
if (table_join.strictness == ASTTableJoin::Strictness::Unspecified &&
table_join.kind != ASTTableJoin::Kind::Cross)
{
if (join_default_strictness == JoinStrictness::ANY)
table_join.strictness = ASTTableJoin::Strictness::Any;
else if (join_default_strictness == JoinStrictness::ALL)
table_join.strictness = ASTTableJoin::Strictness::All;
else
throw Exception("Expected ANY or ALL in JOIN section, because setting (join_default_strictness) is empty",
DB::ErrorCodes::EXPECTED_ALL_OR_ANY);
}
if (old_any)
{
if (table_join.strictness == ASTTableJoin::Strictness::Any &&
table_join.kind == ASTTableJoin::Kind::Inner)
{
table_join.strictness = ASTTableJoin::Strictness::Semi;
table_join.kind = ASTTableJoin::Kind::Left;
}
if (table_join.strictness == ASTTableJoin::Strictness::Any)
table_join.strictness = ASTTableJoin::Strictness::RightAny;
}
else
{
if (table_join.strictness == ASTTableJoin::Strictness::Any)
if (table_join.kind == ASTTableJoin::Kind::Full)
throw Exception("ANY FULL JOINs are not implemented.", ErrorCodes::NOT_IMPLEMENTED);
}
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out_table_join = table_join;
}
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/// Evaluate expression and return boolean value if it can be interpreted as bool.
/// Only UInt8 or NULL are allowed.
/// Returns `false` for 0 or NULL values, `true` for any non-negative value.
std::optional<bool> tryEvaluateConstCondition(ASTPtr expr, ContextPtr context)
{
if (!expr)
return {};
Field eval_res;
DataTypePtr eval_res_type;
try
{
std::tie(eval_res, eval_res_type) = evaluateConstantExpression(expr, context);
}
catch (DB::Exception &)
{
/// not a constant expression
return {};
}
/// UInt8, maybe Nullable, maybe LowCardinality, and NULL are allowed
eval_res_type = removeNullable(removeLowCardinality(eval_res_type));
if (auto which = WhichDataType(eval_res_type); !which.isUInt8() && !which.isNothing())
return {};
if (eval_res.isNull())
return false;
UInt8 res = eval_res.template safeGet<UInt8>();
return res > 0;
}
bool tryJoinOnConst(TableJoin & analyzed_join, ASTPtr & on_expression, ContextPtr context)
{
bool join_on_value;
if (auto eval_const_res = tryEvaluateConstCondition(on_expression, context))
join_on_value = *eval_const_res;
else
return false;
if (!analyzed_join.forceHashJoin())
throw Exception(ErrorCodes::NOT_IMPLEMENTED,
"JOIN ON constant ({}) supported only with join algorithm 'hash'",
queryToString(on_expression));
on_expression = nullptr;
if (join_on_value)
{
LOG_DEBUG(&Poco::Logger::get("TreeRewriter"), "Join on constant executed as cross join");
analyzed_join.resetToCross();
}
else
{
LOG_DEBUG(&Poco::Logger::get("TreeRewriter"), "Join on constant executed as empty join");
analyzed_join.resetKeys();
}
return true;
}
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/// Find the columns that are obtained by JOIN.
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void collectJoinedColumns(TableJoin & analyzed_join, ASTTableJoin & table_join,
const TablesWithColumns & tables, const Aliases & aliases, ContextPtr context)
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{
assert(tables.size() >= 2);
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if (table_join.using_expression_list)
{
const auto & keys = table_join.using_expression_list->as<ASTExpressionList &>();
analyzed_join.addDisjunct();
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for (const auto & key : keys.children)
analyzed_join.addUsingKey(key);
}
else if (table_join.on_expression)
{
bool is_asof = (table_join.strictness == ASTTableJoin::Strictness::Asof);
CollectJoinOnKeysVisitor::Data data{analyzed_join, tables[0], tables[1], aliases, is_asof};
if (auto * or_func = table_join.on_expression->as<ASTFunction>(); or_func && or_func->name == "or")
{
for (auto & disjunct : or_func->arguments->children)
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{
analyzed_join.addDisjunct();
CollectJoinOnKeysVisitor(data).visit(disjunct);
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}
assert(analyzed_join.getClauses().size() == or_func->arguments->children.size());
}
else
{
analyzed_join.addDisjunct();
CollectJoinOnKeysVisitor(data).visit(table_join.on_expression);
assert(analyzed_join.oneDisjunct());
}
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auto check_keys_empty = [] (auto e) { return e.key_names_left.empty(); };
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/// All clauses should to have keys or be empty simultaneously
bool all_keys_empty = std::all_of(analyzed_join.getClauses().begin(), analyzed_join.getClauses().end(), check_keys_empty);
if (all_keys_empty)
{
/// Try join on constant (cross or empty join) or fail
if (is_asof)
throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION,
"Cannot get JOIN keys from JOIN ON section: {}", queryToString(table_join.on_expression));
bool join_on_const_ok = tryJoinOnConst(analyzed_join, table_join.on_expression, context);
if (!join_on_const_ok)
throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION,
"Cannot get JOIN keys from JOIN ON section: {}", queryToString(table_join.on_expression));
}
else
{
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bool any_keys_empty = std::any_of(analyzed_join.getClauses().begin(), analyzed_join.getClauses().end(), check_keys_empty);
if (any_keys_empty)
throw DB::Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION,
"Cannot get JOIN keys from JOIN ON section: '{}'",
queryToString(table_join.on_expression));
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if (is_asof)
{
if (!analyzed_join.oneDisjunct())
throw DB::Exception(ErrorCodes::NOT_IMPLEMENTED, "ASOF join doesn't support multiple ORs for keys in JOIN ON section");
data.asofToJoinKeys();
}
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if (!analyzed_join.oneDisjunct() && !analyzed_join.forceHashJoin())
throw DB::Exception(ErrorCodes::NOT_IMPLEMENTED, "Only `hash` join supports multiple ORs for keys in JOIN ON section");
}
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}
}
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std::vector<const ASTFunction *> getAggregates(ASTPtr & query, const ASTSelectQuery & select_query)
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{
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/// There can not be aggregate functions inside the WHERE and PREWHERE.
if (select_query.where())
assertNoAggregates(select_query.where(), "in WHERE");
if (select_query.prewhere())
assertNoAggregates(select_query.prewhere(), "in PREWHERE");
GetAggregatesVisitor::Data data;
GetAggregatesVisitor(data).visit(query);
/// There can not be other aggregate functions within the aggregate functions.
for (const ASTFunction * node : data.aggregates)
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{
if (node->arguments)
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{
for (auto & arg : node->arguments->children)
{
assertNoAggregates(arg, "inside another aggregate function");
// We also can't have window functions inside aggregate functions,
// because the window functions are calculated later.
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assertNoWindows(arg, "inside an aggregate function");
}
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}
}
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return data.aggregates;
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}
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std::vector<const ASTFunction *> getWindowFunctions(ASTPtr & query, const ASTSelectQuery & select_query)
{
/// There can not be window functions inside the WHERE, PREWHERE and HAVING
if (select_query.having())
assertNoWindows(select_query.having(), "in HAVING");
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if (select_query.where())
assertNoWindows(select_query.where(), "in WHERE");
if (select_query.prewhere())
assertNoWindows(select_query.prewhere(), "in PREWHERE");
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if (select_query.window())
assertNoWindows(select_query.window(), "in WINDOW");
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GetAggregatesVisitor::Data data;
GetAggregatesVisitor(data).visit(query);
/// Window functions cannot be inside aggregates or other window functions.
/// Aggregate functions can be inside window functions because they are
/// calculated earlier.
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for (const ASTFunction * node : data.window_functions)
{
if (node->arguments)
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{
for (auto & arg : node->arguments->children)
{
assertNoWindows(arg, "inside another window function");
}
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}
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if (node->window_definition)
{
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assertNoWindows(node->window_definition, "inside window definition");
}
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}
return data.window_functions;
}
class MarkTupleLiteralsAsLegacyData
{
public:
using TypeToVisit = ASTLiteral;
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static void visit(ASTLiteral & literal, ASTPtr &)
{
if (literal.value.getType() == Field::Types::Tuple)
literal.use_legacy_column_name_of_tuple = true;
}
};
using MarkTupleLiteralsAsLegacyMatcher = OneTypeMatcher<MarkTupleLiteralsAsLegacyData>;
using MarkTupleLiteralsAsLegacyVisitor = InDepthNodeVisitor<MarkTupleLiteralsAsLegacyMatcher, true>;
void markTupleLiteralsAsLegacy(ASTPtr & query)
{
MarkTupleLiteralsAsLegacyVisitor::Data data;
MarkTupleLiteralsAsLegacyVisitor(data).visit(query);
}
/// Rewrite _shard_num -> shardNum() AS _shard_num
struct RewriteShardNum
{
struct Data
{
};
static bool needChildVisit(const ASTPtr & parent, const ASTPtr & /*child*/)
{
/// ON section should not be rewritten.
return typeid_cast<ASTTableJoin *>(parent.get()) == nullptr;
}
static void visit(ASTPtr & ast, Data &)
{
if (auto * identifier = typeid_cast<ASTIdentifier *>(ast.get()))
visit(*identifier, ast);
}
static void visit(ASTIdentifier & identifier, ASTPtr & ast)
{
if (identifier.shortName() != "_shard_num")
return;
String alias = identifier.tryGetAlias();
if (alias.empty())
alias = "_shard_num";
ast = makeASTFunction("shardNum");
ast->setAlias(alias);
}
};
using RewriteShardNumVisitor = InDepthNodeVisitor<RewriteShardNum, true>;
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}
TreeRewriterResult::TreeRewriterResult(
const NamesAndTypesList & source_columns_,
ConstStoragePtr storage_,
const StorageSnapshotPtr & storage_snapshot_,
bool add_special)
: storage(storage_)
, storage_snapshot(storage_snapshot_)
, source_columns(source_columns_)
{
collectSourceColumns(add_special);
is_remote_storage = storage && storage->isRemote();
}
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/// Add columns from storage to source_columns list. Deduplicate resulted list.
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/// Special columns are non physical columns, for example ALIAS
void TreeRewriterResult::collectSourceColumns(bool add_special)
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{
if (storage)
{
auto options = GetColumnsOptions(add_special ? GetColumnsOptions::All : GetColumnsOptions::AllPhysical);
options.withExtendedObjects();
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if (storage->supportsSubcolumns())
options.withSubcolumns();
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auto columns_from_storage = storage_snapshot->getColumns(options);
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if (source_columns.empty())
source_columns.swap(columns_from_storage);
else
source_columns.insert(source_columns.end(), columns_from_storage.begin(), columns_from_storage.end());
}
source_columns_set = removeDuplicateColumns(source_columns);
}
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/// Calculate which columns are required to execute the expression.
/// Then, delete all other columns from the list of available columns.
/// After execution, columns will only contain the list of columns needed to read from the table.
void TreeRewriterResult::collectUsedColumns(const ASTPtr & query, bool is_select)
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{
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/// We calculate required_source_columns with source_columns modifications and swap them on exit
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required_source_columns = source_columns;
RequiredSourceColumnsVisitor::Data columns_context;
RequiredSourceColumnsVisitor(columns_context).visit(query);
NameSet source_column_names;
for (const auto & column : source_columns)
source_column_names.insert(column.name);
NameSet required = columns_context.requiredColumns();
if (columns_context.has_table_join)
{
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NameSet available_columns;
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for (const auto & name : source_columns)
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available_columns.insert(name.name);
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/// Add columns obtained by JOIN (if needed).
for (const auto & joined_column : analyzed_join->columnsFromJoinedTable())
{
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const auto & name = joined_column.name;
if (available_columns.contains(name))
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continue;
if (required.contains(name))
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{
/// Optimisation: do not add columns needed only in JOIN ON section.
if (columns_context.nameInclusion(name) > analyzed_join->rightKeyInclusion(name))
analyzed_join->addJoinedColumn(joined_column);
required.erase(name);
}
}
}
NameSet array_join_sources;
if (columns_context.has_array_join)
{
/// Insert the columns required for the ARRAY JOIN calculation into the required columns list.
for (const auto & result_source : array_join_result_to_source)
array_join_sources.insert(result_source.second);
for (const auto & column_name_type : source_columns)
if (array_join_sources.contains(column_name_type.name))
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required.insert(column_name_type.name);
}
/// Figure out if we're able to use the trivial count optimization.
has_explicit_columns = !required.empty();
if (is_select && !has_explicit_columns)
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{
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optimize_trivial_count = true;
/// You need to read at least one column to find the number of rows.
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/// We will find a column with minimum <compressed_size, type_size, uncompressed_size>.
/// Because it is the column that is cheapest to read.
struct ColumnSizeTuple
{
size_t compressed_size;
size_t type_size;
size_t uncompressed_size;
String name;
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bool operator<(const ColumnSizeTuple & that) const
{
return std::tie(compressed_size, type_size, uncompressed_size)
< std::tie(that.compressed_size, that.type_size, that.uncompressed_size);
}
};
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std::vector<ColumnSizeTuple> columns;
if (storage)
{
auto column_sizes = storage->getColumnSizes();
for (auto & source_column : source_columns)
{
auto c = column_sizes.find(source_column.name);
if (c == column_sizes.end())
continue;
size_t type_size = source_column.type->haveMaximumSizeOfValue() ? source_column.type->getMaximumSizeOfValueInMemory() : 100;
columns.emplace_back(ColumnSizeTuple{c->second.data_compressed, type_size, c->second.data_uncompressed, source_column.name});
}
}
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if (!columns.empty())
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required.insert(std::min_element(columns.begin(), columns.end())->name);
else if (!source_columns.empty())
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/// If we have no information about columns sizes, choose a column of minimum size of its data type.
required.insert(ExpressionActions::getSmallestColumn(source_columns));
}
else if (is_select && storage_snapshot && !columns_context.has_array_join)
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{
const auto & partition_desc = storage_snapshot->metadata->getPartitionKey();
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if (partition_desc.expression)
{
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auto partition_source_columns = partition_desc.expression->getRequiredColumns();
partition_source_columns.push_back("_part");
partition_source_columns.push_back("_partition_id");
partition_source_columns.push_back("_part_uuid");
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partition_source_columns.push_back("_partition_value");
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optimize_trivial_count = true;
for (const auto & required_column : required)
{
if (std::find(partition_source_columns.begin(), partition_source_columns.end(), required_column)
== partition_source_columns.end())
{
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optimize_trivial_count = false;
break;
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}
}
}
}
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NameSet unknown_required_source_columns = required;
for (NamesAndTypesList::iterator it = source_columns.begin(); it != source_columns.end();)
{
const String & column_name = it->name;
unknown_required_source_columns.erase(column_name);
if (!required.contains(column_name))
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it = source_columns.erase(it);
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else
++it;
}
has_virtual_shard_num = false;
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/// If there are virtual columns among the unknown columns. Remove them from the list of unknown and add
/// in columns list, so that when further processing they are also considered.
if (storage)
{
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const auto storage_virtuals = storage->getVirtuals();
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for (auto it = unknown_required_source_columns.begin(); it != unknown_required_source_columns.end();)
{
auto column = storage_virtuals.tryGetByName(*it);
if (column)
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{
source_columns.push_back(*column);
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it = unknown_required_source_columns.erase(it);
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}
else
++it;
}
if (is_remote_storage)
{
for (const auto & name_type : storage_virtuals)
{
if (name_type.name == "_shard_num" && storage->isVirtualColumn("_shard_num", storage_snapshot->getMetadataForQuery()))
{
has_virtual_shard_num = true;
break;
}
}
}
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}
if (!unknown_required_source_columns.empty())
{
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WriteBufferFromOwnString ss;
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ss << "Missing columns:";
for (const auto & name : unknown_required_source_columns)
ss << " '" << name << "'";
ss << " while processing query: '" << queryToString(query) << "'";
ss << ", required columns:";
for (const auto & name : columns_context.requiredColumns())
ss << " '" << name << "'";
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if (storage)
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{
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std::vector<String> hint_name{};
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for (const auto & name : columns_context.requiredColumns())
{
auto hints = storage->getHints(name);
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hint_name.insert(hint_name.end(), hints.begin(), hints.end());
}
if (!hint_name.empty())
{
ss << ", maybe you meant: ";
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ss << toString(hint_name);
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}
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}
else
{
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if (!source_column_names.empty())
for (const auto & name : columns_context.requiredColumns())
ss << " '" << name << "'";
else
ss << ", no source columns";
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}
if (columns_context.has_table_join)
{
ss << ", joined columns:";
for (const auto & column : analyzed_join->columnsFromJoinedTable())
ss << " '" << column.name << "'";
}
if (!array_join_sources.empty())
{
ss << ", arrayJoin columns:";
for (const auto & name : array_join_sources)
ss << " '" << name << "'";
}
throw Exception(ss.str(), ErrorCodes::UNKNOWN_IDENTIFIER);
}
required_source_columns.swap(source_columns);
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for (const auto & column : required_source_columns)
{
source_column_names.insert(column.name);
}
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}
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NameSet TreeRewriterResult::getArrayJoinSourceNameSet() const
{
NameSet forbidden_columns;
for (const auto & elem : array_join_result_to_source)
forbidden_columns.insert(elem.first);
return forbidden_columns;
}
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TreeRewriterResultPtr TreeRewriter::analyzeSelect(
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ASTPtr & query,
TreeRewriterResult && result,
const SelectQueryOptions & select_options,
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const std::vector<TableWithColumnNamesAndTypes> & tables_with_columns,
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const Names & required_result_columns,
std::shared_ptr<TableJoin> table_join) const
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{
auto * select_query = query->as<ASTSelectQuery>();
if (!select_query)
throw Exception("Select analyze for not select asts.", ErrorCodes::LOGICAL_ERROR);
size_t subquery_depth = select_options.subquery_depth;
bool remove_duplicates = select_options.remove_duplicates;
bool reorder_columns_as_required_header = select_options.reorder_columns_as_required_header;
const auto & settings = getContext()->getSettingsRef();
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const NameSet & source_columns_set = result.source_columns_set;
if (table_join)
{
result.analyzed_join = table_join;
result.analyzed_join->resetCollected();
}
else /// TODO: remove. For now ExpressionAnalyzer expects some not empty object here
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result.analyzed_join = std::make_shared<TableJoin>();
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if (remove_duplicates)
renameDuplicatedColumns(select_query);
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/// Perform it before analyzing JOINs, because it may change number of columns with names unique and break some logic inside JOINs
if (settings.optimize_normalize_count_variants)
TreeOptimizer::optimizeCountConstantAndSumOne(query);
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if (tables_with_columns.size() > 1)
{
const auto & right_table = tables_with_columns[1];
auto & cols_from_joined = result.analyzed_join->columns_from_joined_table;
cols_from_joined = right_table.columns;
/// query can use materialized or aliased columns from right joined table,
/// we want to request it for right table
cols_from_joined.insert(cols_from_joined.end(), right_table.hidden_columns.begin(), right_table.hidden_columns.end());
result.analyzed_join->deduplicateAndQualifyColumnNames(
source_columns_set, right_table.table.getQualifiedNamePrefix());
}
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translateQualifiedNames(query, *select_query, source_columns_set, tables_with_columns);
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/// Optimizes logical expressions.
LogicalExpressionsOptimizer(select_query, settings.optimize_min_equality_disjunction_chain_length.value).perform();
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NameSet all_source_columns_set = source_columns_set;
if (table_join)
{
for (const auto & [name, _] : table_join->columns_from_joined_table)
all_source_columns_set.insert(name);
}
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normalize(query, result.aliases, all_source_columns_set, select_options.ignore_alias, settings, /* allow_self_aliases = */ true, getContext());
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/// Remove unneeded columns according to 'required_result_columns'.
/// Leave all selected columns in case of DISTINCT; columns that contain arrayJoin function inside.
/// Must be after 'normalizeTree' (after expanding aliases, for aliases not get lost)
/// and before 'executeScalarSubqueries', 'analyzeAggregation', etc. to avoid excessive calculations.
removeUnneededColumnsFromSelectClause(select_query, required_result_columns, remove_duplicates, reorder_columns_as_required_header);
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/// Executing scalar subqueries - replacing them with constant values.
executeScalarSubqueries(query, getContext(), subquery_depth, result.scalars, result.local_scalars, select_options.only_analyze);
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if (settings.legacy_column_name_of_tuple_literal)
markTupleLiteralsAsLegacy(query);
/// Push the predicate expression down to subqueries. The optimization should be applied to both initial and secondary queries.
result.rewrite_subqueries = PredicateExpressionsOptimizer(getContext(), tables_with_columns, settings).optimize(*select_query);
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TreeOptimizer::optimizeIf(query, result.aliases, settings.optimize_if_chain_to_multiif);
/// Only apply AST optimization for initial queries.
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if (getContext()->getClientInfo().query_kind != ClientInfo::QueryKind::SECONDARY_QUERY && !select_options.ignore_ast_optimizations)
TreeOptimizer::apply(query, result, tables_with_columns, getContext());
/// array_join_alias_to_name, array_join_result_to_source.
getArrayJoinedColumns(query, result, select_query, result.source_columns, source_columns_set);
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setJoinStrictness(
*select_query, settings.join_default_strictness, settings.any_join_distinct_right_table_keys, result.analyzed_join->table_join);
auto * table_join_ast = select_query->join() ? select_query->join()->table_join->as<ASTTableJoin>() : nullptr;
if (table_join_ast && tables_with_columns.size() >= 2)
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collectJoinedColumns(*result.analyzed_join, *table_join_ast, tables_with_columns, result.aliases, getContext());
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result.aggregates = getAggregates(query, *select_query);
result.window_function_asts = getWindowFunctions(query, *select_query);
result.expressions_with_window_function = getExpressionsWithWindowFunctions(query);
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result.collectUsedColumns(query, true);
result.required_source_columns_before_expanding_alias_columns = result.required_source_columns.getNames();
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/// rewrite filters for select query, must go after getArrayJoinedColumns
bool is_initiator = getContext()->getClientInfo().distributed_depth == 0;
if (settings.optimize_respect_aliases && result.storage_snapshot && is_initiator)
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{
std::unordered_set<IAST *> excluded_nodes;
{
/// Do not replace ALIASed columns in JOIN ON/USING sections
if (table_join_ast && table_join_ast->on_expression)
excluded_nodes.insert(table_join_ast->on_expression.get());
if (table_join_ast && table_join_ast->using_expression_list)
excluded_nodes.insert(table_join_ast->using_expression_list.get());
}
bool is_changed = replaceAliasColumnsInQuery(query, result.storage_snapshot->metadata->getColumns(),
result.array_join_result_to_source, getContext(), excluded_nodes);
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/// If query is changed, we need to redo some work to correct name resolution.
if (is_changed)
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{
result.aggregates = getAggregates(query, *select_query);
result.window_function_asts = getWindowFunctions(query, *select_query);
result.expressions_with_window_function = getExpressionsWithWindowFunctions(query);
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result.collectUsedColumns(query, true);
}
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}
/// Rewrite _shard_num to shardNum()
if (result.has_virtual_shard_num)
{
RewriteShardNumVisitor::Data data_rewrite_shard_num;
RewriteShardNumVisitor(data_rewrite_shard_num).visit(query);
}
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result.ast_join = select_query->join();
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if (result.optimize_trivial_count)
result.optimize_trivial_count = settings.optimize_trivial_count_query &&
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!select_query->groupBy() && !select_query->having() &&
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!select_query->sampleSize() && !select_query->sampleOffset() && !select_query->final() &&
(tables_with_columns.size() < 2 || isLeft(result.analyzed_join->kind()));
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return std::make_shared<const TreeRewriterResult>(result);
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}
TreeRewriterResultPtr TreeRewriter::analyze(
ASTPtr & query,
const NamesAndTypesList & source_columns,
ConstStoragePtr storage,
const StorageSnapshotPtr & storage_snapshot,
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bool allow_aggregations,
bool allow_self_aliases,
bool execute_scalar_subqueries) const
{
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if (query->as<ASTSelectQuery>())
throw Exception("Not select analyze for select asts.", ErrorCodes::LOGICAL_ERROR);
const auto & settings = getContext()->getSettingsRef();
TreeRewriterResult result(source_columns, storage, storage_snapshot, false);
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normalize(query, result.aliases, result.source_columns_set, false, settings, allow_self_aliases, getContext());
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/// Executing scalar subqueries. Column defaults could be a scalar subquery.
executeScalarSubqueries(query, getContext(), 0, result.scalars, result.local_scalars, !execute_scalar_subqueries);
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if (settings.legacy_column_name_of_tuple_literal)
markTupleLiteralsAsLegacy(query);
TreeOptimizer::optimizeIf(query, result.aliases, settings.optimize_if_chain_to_multiif);
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if (allow_aggregations)
{
GetAggregatesVisitor::Data data;
GetAggregatesVisitor(data).visit(query);
/// There can not be other aggregate functions within the aggregate functions.
for (const ASTFunction * node : data.aggregates)
for (auto & arg : node->arguments->children)
assertNoAggregates(arg, "inside another aggregate function");
result.aggregates = data.aggregates;
}
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else
assertNoAggregates(query, "in wrong place");
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result.collectUsedColumns(query, false);
return std::make_shared<const TreeRewriterResult>(result);
}
void TreeRewriter::normalize(
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ASTPtr & query, Aliases & aliases, const NameSet & source_columns_set, bool ignore_alias, const Settings & settings, bool allow_self_aliases, ContextPtr context_)
{
UserDefinedSQLFunctionVisitor::Data data_user_defined_functions_visitor;
UserDefinedSQLFunctionVisitor(data_user_defined_functions_visitor).visit(query);
CustomizeCountDistinctVisitor::Data data_count_distinct{settings.count_distinct_implementation};
CustomizeCountDistinctVisitor(data_count_distinct).visit(query);
CustomizeCountIfDistinctVisitor::Data data_count_if_distinct{settings.count_distinct_implementation.toString() + "If"};
CustomizeCountIfDistinctVisitor(data_count_if_distinct).visit(query);
CustomizeIfDistinctVisitor::Data data_distinct_if{"DistinctIf"};
CustomizeIfDistinctVisitor(data_distinct_if).visit(query);
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ExistsExpressionVisitor::Data exists;
ExistsExpressionVisitor(exists).visit(query);
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if (settings.transform_null_in)
{
CustomizeInVisitor::Data data_null_in{"nullIn"};
CustomizeInVisitor(data_null_in).visit(query);
CustomizeNotInVisitor::Data data_not_null_in{"notNullIn"};
CustomizeNotInVisitor(data_not_null_in).visit(query);
CustomizeGlobalInVisitor::Data data_global_null_in{"globalNullIn"};
CustomizeGlobalInVisitor(data_global_null_in).visit(query);
CustomizeGlobalNotInVisitor::Data data_global_not_null_in{"globalNotNullIn"};
CustomizeGlobalNotInVisitor(data_global_not_null_in).visit(query);
}
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// Try to fuse sum/avg/count with identical arguments to one sumCount call,
// if we have at least two different functions. E.g. we will replace sum(x)
// and count(x) with sumCount(x).1 and sumCount(x).2, and sumCount() will
// be calculated only once because of CSE.
if (settings.optimize_fuse_sum_count_avg && settings.optimize_syntax_fuse_functions)
{
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FuseSumCountAggregatesVisitor::Data data;
FuseSumCountAggregatesVisitor(data).visit(query);
fuseSumCountAggregates(data.fuse_map);
}
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/// Rewrite all aggregate functions to add -OrNull suffix to them
if (settings.aggregate_functions_null_for_empty)
{
CustomizeAggregateFunctionsOrNullVisitor::Data data_or_null{"OrNull"};
CustomizeAggregateFunctionsOrNullVisitor(data_or_null).visit(query);
}
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/// Move -OrNull suffix ahead, this should execute after add -OrNull suffix
CustomizeAggregateFunctionsMoveOrNullVisitor::Data data_or_null{"OrNull"};
CustomizeAggregateFunctionsMoveOrNullVisitor(data_or_null).visit(query);
/// Creates a dictionary `aliases`: alias -> ASTPtr
QueryAliasesVisitor(aliases).visit(query);
/// Mark table ASTIdentifiers with not a column marker
MarkTableIdentifiersVisitor::Data identifiers_data{aliases};
MarkTableIdentifiersVisitor(identifiers_data).visit(query);
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/// Rewrite function names to their canonical ones.
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/// Notice: function name normalization is disabled when it's a secondary query, because queries are either
/// already normalized on initiator node, or not normalized and should remain unnormalized for
/// compatibility.
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if (context_->getClientInfo().query_kind != ClientInfo::QueryKind::SECONDARY_QUERY && settings.normalize_function_names)
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FunctionNameNormalizer().visit(query.get());
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/// Common subexpression elimination. Rewrite rules.
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QueryNormalizer::Data normalizer_data(aliases, source_columns_set, ignore_alias, settings, allow_self_aliases);
QueryNormalizer(normalizer_data).visit(query);
optimizeGroupingSets(query);
}
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}