ClickHouse/src/Storages/MergeTree/MergeTreeWhereOptimizer.cpp
2020-05-23 23:37:37 +03:00

362 lines
11 KiB
C++

#include <Storages/MergeTree/MergeTreeWhereOptimizer.h>
#include <Storages/MergeTree/MergeTreeData.h>
#include <Storages/MergeTree/KeyCondition.h>
#include <Interpreters/IdentifierSemantic.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTLiteral.h>
#include <Parsers/ASTExpressionList.h>
#include <Parsers/ASTSubquery.h>
#include <Parsers/formatAST.h>
#include <Interpreters/misc.h>
#include <Common/typeid_cast.h>
#include <DataTypes/NestedUtils.h>
#include <ext/map.h>
namespace DB
{
namespace ErrorCodes
{
}
/// Conditions like "x = N" are considered good if abs(N) > threshold.
/// This is used to assume that condition is likely to have good selectivity.
static constexpr auto threshold = 2;
MergeTreeWhereOptimizer::MergeTreeWhereOptimizer(
SelectQueryInfo & query_info,
const Context & context,
const MergeTreeData & data,
const Names & queried_columns_,
Logger * log_)
: table_columns{ext::map<std::unordered_set>(data.getColumns().getAllPhysical(),
[] (const NameAndTypePair & col) { return col.name; })},
queried_columns{queried_columns_},
block_with_constants{KeyCondition::getBlockWithConstants(query_info.query, query_info.syntax_analyzer_result, context)},
log{log_}
{
if (!data.primary_key_columns.empty())
first_primary_key_column = data.primary_key_columns[0];
calculateColumnSizes(data, queried_columns);
determineArrayJoinedNames(query_info.query->as<ASTSelectQuery &>());
optimize(query_info.query->as<ASTSelectQuery &>());
}
void MergeTreeWhereOptimizer::calculateColumnSizes(const MergeTreeData & data, const Names & column_names)
{
for (const auto & column_name : column_names)
{
UInt64 size = data.getColumnCompressedSize(column_name);
column_sizes[column_name] = size;
total_size_of_queried_columns += size;
}
}
static void collectIdentifiersNoSubqueries(const ASTPtr & ast, NameSet & set)
{
if (auto opt_name = tryGetIdentifierName(ast))
return (void)set.insert(*opt_name);
if (ast->as<ASTSubquery>())
return;
for (const auto & child : ast->children)
collectIdentifiersNoSubqueries(child, set);
}
static bool isConditionGood(const ASTPtr & condition)
{
const auto * function = condition->as<ASTFunction>();
if (!function)
return false;
/** we are only considering conditions of form `equals(one, another)` or `one = another`,
* especially if either `one` or `another` is ASTIdentifier */
if (function->name != "equals")
return false;
auto * left_arg = function->arguments->children.front().get();
auto * right_arg = function->arguments->children.back().get();
/// try to ensure left_arg points to ASTIdentifier
if (!left_arg->as<ASTIdentifier>() && right_arg->as<ASTIdentifier>())
std::swap(left_arg, right_arg);
if (left_arg->as<ASTIdentifier>())
{
/// condition may be "good" if only right_arg is a constant and its value is outside the threshold
if (const auto * literal = right_arg->as<ASTLiteral>())
{
const auto & field = literal->value;
const auto type = field.getType();
/// check the value with respect to threshold
if (type == Field::Types::UInt64)
{
const auto value = field.get<UInt64>();
return value > threshold;
}
else if (type == Field::Types::Int64)
{
const auto value = field.get<Int64>();
return value < -threshold || threshold < value;
}
else if (type == Field::Types::Float64)
{
const auto value = field.get<Float64>();
return value < threshold || threshold < value;
}
}
}
return false;
}
void MergeTreeWhereOptimizer::analyzeImpl(Conditions & res, const ASTPtr & node) const
{
if (const auto * func_and = node->as<ASTFunction>(); func_and && func_and->name == "and")
{
for (const auto & elem : func_and->arguments->children)
analyzeImpl(res, elem);
}
else
{
Condition cond;
cond.node = node;
collectIdentifiersNoSubqueries(node, cond.identifiers);
cond.columns_size = getIdentifiersColumnSize(cond.identifiers);
cond.viable =
/// Condition depend on some column. Constant expressions are not moved.
!cond.identifiers.empty()
&& !cannotBeMoved(node)
/// Do not take into consideration the conditions consisting only of the first primary key column
&& !hasPrimaryKeyAtoms(node)
/// Only table columns are considered. Not array joined columns. NOTE We're assuming that aliases was expanded.
&& isSubsetOfTableColumns(cond.identifiers)
/// Do not move conditions involving all queried columns.
&& cond.identifiers.size() < queried_columns.size()
/// Columns size of compact parts can't be counted. If all parts are compact do not move any condition.
&& cond.columns_size > 0;
if (cond.viable)
cond.good = isConditionGood(node);
res.emplace_back(std::move(cond));
}
}
/// Transform conjunctions chain in WHERE expression to Conditions list.
MergeTreeWhereOptimizer::Conditions MergeTreeWhereOptimizer::analyze(const ASTPtr & expression) const
{
Conditions res;
analyzeImpl(res, expression);
return res;
}
/// Transform Conditions list to WHERE or PREWHERE expression.
ASTPtr MergeTreeWhereOptimizer::reconstruct(const Conditions & conditions)
{
if (conditions.empty())
return {};
if (conditions.size() == 1)
return conditions.front().node;
const auto function = std::make_shared<ASTFunction>();
function->name = "and";
function->arguments = std::make_shared<ASTExpressionList>();
function->children.push_back(function->arguments);
for (const auto & elem : conditions)
function->arguments->children.push_back(elem.node);
return function;
}
void MergeTreeWhereOptimizer::optimize(ASTSelectQuery & select) const
{
if (!select.where() || select.prewhere())
return;
Conditions where_conditions = analyze(select.where());
Conditions prewhere_conditions;
UInt64 total_size_of_moved_conditions = 0;
/// Move condition and all other conditions depend on the same set of columns.
auto move_condition = [&](Conditions::iterator cond_it)
{
prewhere_conditions.splice(prewhere_conditions.end(), where_conditions, cond_it);
total_size_of_moved_conditions += cond_it->columns_size;
/// Move all other viable conditions that depend on the same set of columns.
for (auto jt = where_conditions.begin(); jt != where_conditions.end();)
{
if (jt->viable && jt->columns_size == cond_it->columns_size && jt->identifiers == cond_it->identifiers)
prewhere_conditions.splice(prewhere_conditions.end(), where_conditions, jt++);
else
++jt;
}
};
/// Move conditions unless the ratio of total_size_of_moved_conditions to the total_size_of_queried_columns is less than some threshold.
while (!where_conditions.empty())
{
/// Move the best condition to PREWHERE if it is viable.
auto it = std::min_element(where_conditions.begin(), where_conditions.end());
if (!it->viable)
break;
/// 10% ratio is just a guess.
if (total_size_of_moved_conditions > 0 && (total_size_of_moved_conditions + it->columns_size) * 10 > total_size_of_queried_columns)
break;
move_condition(it);
}
/// Nothing was moved.
if (prewhere_conditions.empty())
return;
/// Rewrite the SELECT query.
select.setExpression(ASTSelectQuery::Expression::WHERE, reconstruct(where_conditions));
select.setExpression(ASTSelectQuery::Expression::PREWHERE, reconstruct(prewhere_conditions));
LOG_DEBUG_FORMATTED(log, "MergeTreeWhereOptimizer: condition \"{}\" moved to PREWHERE", select.prewhere());
}
UInt64 MergeTreeWhereOptimizer::getIdentifiersColumnSize(const NameSet & identifiers) const
{
UInt64 size = 0;
for (const auto & identifier : identifiers)
if (column_sizes.count(identifier))
size += column_sizes.at(identifier);
return size;
}
bool MergeTreeWhereOptimizer::hasPrimaryKeyAtoms(const ASTPtr & ast) const
{
if (const auto * func = ast->as<ASTFunction>())
{
const auto & args = func->arguments->children;
if ((func->name == "not" && 1 == args.size()) || func->name == "and" || func->name == "or")
{
for (const auto & arg : args)
if (hasPrimaryKeyAtoms(arg))
return true;
return false;
}
}
return isPrimaryKeyAtom(ast);
}
bool MergeTreeWhereOptimizer::isPrimaryKeyAtom(const ASTPtr & ast) const
{
if (const auto * func = ast->as<ASTFunction>())
{
if (!KeyCondition::atom_map.count(func->name))
return false;
const auto & args = func->arguments->children;
if (args.size() != 2)
return false;
const auto & first_arg_name = args.front()->getColumnName();
const auto & second_arg_name = args.back()->getColumnName();
if ((first_primary_key_column == first_arg_name && isConstant(args[1]))
|| (first_primary_key_column == second_arg_name && isConstant(args[0]))
|| (first_primary_key_column == first_arg_name && functionIsInOrGlobalInOperator(func->name)))
return true;
}
return false;
}
bool MergeTreeWhereOptimizer::isConstant(const ASTPtr & expr) const
{
const auto column_name = expr->getColumnName();
return expr->as<ASTLiteral>()
|| (block_with_constants.has(column_name) && isColumnConst(*block_with_constants.getByName(column_name).column));
}
bool MergeTreeWhereOptimizer::isSubsetOfTableColumns(const NameSet & identifiers) const
{
for (const auto & identifier : identifiers)
if (table_columns.count(identifier) == 0)
return false;
return true;
}
bool MergeTreeWhereOptimizer::cannotBeMoved(const ASTPtr & ptr) const
{
if (const auto * function_ptr = ptr->as<ASTFunction>())
{
/// disallow arrayJoin expressions to be moved to PREWHERE for now
if ("arrayJoin" == function_ptr->name)
return true;
/// disallow GLOBAL IN, GLOBAL NOT IN
if ("globalIn" == function_ptr->name
|| "globalNotIn" == function_ptr->name)
return true;
}
else if (auto opt_name = IdentifierSemantic::getColumnName(ptr))
{
/// disallow moving result of ARRAY JOIN to PREWHERE
if (array_joined_names.count(*opt_name) ||
array_joined_names.count(Nested::extractTableName(*opt_name)))
return true;
}
for (const auto & child : ptr->children)
if (cannotBeMoved(child))
return true;
return false;
}
void MergeTreeWhereOptimizer::determineArrayJoinedNames(ASTSelectQuery & select)
{
auto array_join_expression_list = select.arrayJoinExpressionList();
/// much simplified code from ExpressionAnalyzer::getArrayJoinedColumns()
if (!array_join_expression_list)
return;
for (const auto & ast : array_join_expression_list->children)
array_joined_names.emplace(ast->getAliasOrColumnName());
}
}