ClickHouse/src/Storages/ReadInOrderOptimizer.cpp

291 lines
9.8 KiB
C++

#include <Storages/ReadInOrderOptimizer.h>
#include <Interpreters/ExpressionActions.h>
#include <Interpreters/ExpressionAnalyzer.h>
#include <Interpreters/TreeRewriter.h>
#include <Interpreters/replaceAliasColumnsInQuery.h>
#include <Functions/IFunction.h>
#include <Functions/FunctionFactory.h>
#include <Interpreters/TableJoin.h>
#include <Interpreters/Context.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTIdentifier.h>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
namespace
{
/// Finds expression like x = 'y' or f(x) = 'y',
/// where `x` is identifier, 'y' is literal and `f` is injective functions.
ASTPtr getFixedPoint(const ASTPtr & ast, const ContextPtr & context)
{
const auto * func = ast->as<ASTFunction>();
if (!func || func->name != "equals")
return nullptr;
if (!func->arguments || func->arguments->children.size() != 2)
return nullptr;
const auto & lhs = func->arguments->children[0];
const auto & rhs = func->arguments->children[1];
if (!lhs->as<ASTLiteral>() && !rhs->as<ASTLiteral>())
return nullptr;
/// Case of two literals doesn't make sense.
if (lhs->as<ASTLiteral>() && rhs->as<ASTLiteral>())
return nullptr;
/// If indetifier is wrapped into injective functions, remove them.
auto argument = lhs->as<ASTLiteral>() ? rhs : lhs;
while (const auto * arg_func = argument->as<ASTFunction>())
{
if (!arg_func->arguments || arg_func->arguments->children.size() != 1)
return nullptr;
auto func_resolver = FunctionFactory::instance().tryGet(arg_func->name, context);
if (!func_resolver || !func_resolver->isInjective({}))
return nullptr;
argument = arg_func->arguments->children[0];
}
return argument->as<ASTIdentifier>() ? argument : nullptr;
}
NameSet getFixedSortingColumns(
const ASTSelectQuery & query, const Names & sorting_key_columns, const ContextPtr & context)
{
ASTPtr condition;
if (query.where() && query.prewhere())
condition = makeASTFunction("and", query.where(), query.prewhere());
else if (query.where())
condition = query.where();
else if (query.prewhere())
condition = query.prewhere();
if (!condition)
return {};
/// Convert condition to CNF for more convenient analysis.
auto cnf = TreeCNFConverter::tryConvertToCNF(condition);
if (!cnf)
return {};
NameSet fixed_points;
NameSet sorting_key_columns_set(sorting_key_columns.begin(), sorting_key_columns.end());
/// If we met expression like 'column = x', where 'x' is literal,
/// in clause of size 1 in CNF, then we can guarantee
/// that in all filtered rows 'column' will be equal to 'x'.
cnf->iterateGroups([&](const auto & group)
{
if (group.size() == 1 && !group.begin()->negative)
{
auto fixed_point = getFixedPoint(group.begin()->ast, context);
if (fixed_point)
{
auto column_name = fixed_point->getColumnName();
if (sorting_key_columns_set.contains(column_name))
fixed_points.insert(column_name);
}
}
});
return fixed_points;
}
/// Optimize in case of exact match with order key element
/// or in some simple cases when order key element is wrapped into monotonic function.
/// Returns on of {-1, 0, 1} - direction of the match. 0 means - doesn't match.
int matchSortDescriptionAndKey(
const ExpressionActions::Actions & actions,
const SortColumnDescription & sort_column,
const String & sorting_key_column)
{
/// If required order depend on collation, it cannot be matched with primary key order.
/// Because primary keys cannot have collations.
if (sort_column.collator)
return 0;
int current_direction = sort_column.direction;
/// For the path: order by (sort_column, ...)
if (sort_column.column_name == sorting_key_column)
return current_direction;
/// For the path: order by (function(sort_column), ...)
/// Allow only one simple monotonic functions with one argument
/// Why not allow multi monotonic functions?
bool found_function = false;
for (const auto & action : actions)
{
if (action.node->type != ActionsDAG::ActionType::FUNCTION)
continue;
if (found_function)
{
current_direction = 0;
break;
}
else
{
found_function = true;
}
if (action.node->children.size() != 1 || action.node->children.at(0)->result_name != sorting_key_column)
{
current_direction = 0;
break;
}
const auto & func = *action.node->function_base;
if (!func.hasInformationAboutMonotonicity())
{
current_direction = 0;
break;
}
auto monotonicity = func.getMonotonicityForRange(*func.getArgumentTypes().at(0), {}, {});
if (!monotonicity.is_monotonic)
{
current_direction = 0;
break;
}
else if (!monotonicity.is_positive)
{
current_direction *= -1;
}
}
if (!found_function)
current_direction = 0;
return current_direction;
}
}
ReadInOrderOptimizer::ReadInOrderOptimizer(
const ASTSelectQuery & query_,
const ManyExpressionActions & elements_actions_,
const SortDescription & required_sort_description_,
const TreeRewriterResultPtr & syntax_result)
: elements_actions(elements_actions_)
, required_sort_description(required_sort_description_)
, query(query_)
{
if (elements_actions.size() != required_sort_description.size())
throw Exception("Sizes of sort description and actions are mismatched", ErrorCodes::LOGICAL_ERROR);
/// Do not analyze joined columns.
/// They may have aliases and come to description as is.
/// We can mismatch them with order key columns at stage of fetching columns.
forbidden_columns = syntax_result->getArrayJoinSourceNameSet();
// array join result columns cannot be used in alias expansion.
array_join_result_to_source = syntax_result->array_join_result_to_source;
}
InputOrderInfoPtr ReadInOrderOptimizer::getInputOrderImpl(
const StorageMetadataPtr & metadata_snapshot,
const SortDescription & description,
const ManyExpressionActions & actions,
const ContextPtr & context,
UInt64 limit) const
{
auto sorting_key_columns = metadata_snapshot->getSortingKeyColumns();
int read_direction = description.at(0).direction;
auto fixed_sorting_columns = getFixedSortingColumns(query, sorting_key_columns, context);
SortDescription sort_description_for_merging;
sort_description_for_merging.reserve(description.size());
size_t desc_pos = 0;
size_t key_pos = 0;
while (desc_pos < description.size() && key_pos < sorting_key_columns.size())
{
if (forbidden_columns.contains(description[desc_pos].column_name))
break;
int current_direction = matchSortDescriptionAndKey(actions[desc_pos]->getActions(), description[desc_pos], sorting_key_columns[key_pos]);
bool is_matched = current_direction && (desc_pos == 0 || current_direction == read_direction);
if (!is_matched)
{
/// If one of the sorting columns is constant after filtering,
/// skip it, because it won't affect order anymore.
if (fixed_sorting_columns.contains(sorting_key_columns[key_pos]))
{
++key_pos;
continue;
}
break;
}
if (desc_pos == 0)
read_direction = current_direction;
sort_description_for_merging.push_back(description[desc_pos]);
++desc_pos;
++key_pos;
}
if (sort_description_for_merging.empty())
return {};
return std::make_shared<InputOrderInfo>(std::move(sort_description_for_merging), key_pos, read_direction, limit);
}
InputOrderInfoPtr ReadInOrderOptimizer::getInputOrder(
const StorageMetadataPtr & metadata_snapshot, ContextPtr context, UInt64 limit) const
{
if (!metadata_snapshot->hasSortingKey())
return {};
auto aliased_columns = metadata_snapshot->getColumns().getAliases();
/// Replace alias column with proper expressions.
/// Currently we only support alias column without any function wrapper,
/// i.e.: `order by aliased_column` can have this optimization, but `order by function(aliased_column)` can not.
/// This suits most cases.
if (context->getSettingsRef().optimize_respect_aliases && !aliased_columns.empty())
{
SortDescription aliases_sort_description = required_sort_description;
ManyExpressionActions aliases_actions = elements_actions;
for (size_t i = 0; i < required_sort_description.size(); ++i)
{
if (!aliased_columns.contains(required_sort_description[i].column_name))
continue;
auto column_expr = metadata_snapshot->getColumns().get(required_sort_description[i].column_name).default_desc.expression->clone();
replaceAliasColumnsInQuery(column_expr, metadata_snapshot->getColumns(), array_join_result_to_source, context);
auto syntax_analyzer_result = TreeRewriter(context).analyze(column_expr, metadata_snapshot->getColumns().getAll());
auto expression_analyzer = ExpressionAnalyzer(column_expr, syntax_analyzer_result, context);
aliases_sort_description[i].column_name = column_expr->getColumnName();
aliases_actions[i] = expression_analyzer.getActions(true);
}
return getInputOrderImpl(metadata_snapshot, aliases_sort_description, aliases_actions, context, limit);
}
return getInputOrderImpl(metadata_snapshot, required_sort_description, elements_actions, context, limit);
}
}