ClickHouse/src/Interpreters/ArithmeticOperationsInAgrFuncOptimize.cpp

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#include <unordered_set>
#include <Common/typeid_cast.h>
#include <Parsers/ASTLiteral.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTSubquery.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Interpreters/ArithmeticOperationsInAgrFuncOptimize.h>
namespace DB
{
namespace ErrorCodes
{
extern const int BAD_TYPE_OF_FIELD;
}
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namespace
{
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const ASTFunction * getInternalFunction(const ASTFunction & func)
{
if (func.arguments->children.size() == 1)
return func.arguments->children[0]->as<ASTFunction>();
return nullptr;
}
ASTPtr exchangeExtractFirstArgument(const String & func_name, const ASTFunction & child_func)
{
ASTs new_child_args;
new_child_args.push_back(child_func.arguments->children[1]);
auto new_child = makeASTFunction(func_name, new_child_args);
ASTs new_args;
new_args.push_back(child_func.arguments->children[0]);
new_args.push_back(new_child);
return makeASTFunction(child_func.name, new_args);
}
ASTPtr exchangeExtractSecondArgument(const String & func_name, const ASTFunction & child_func)
{
ASTs new_child_args;
new_child_args.push_back(child_func.arguments->children[0]);
auto new_child = makeASTFunction(func_name, new_child_args);
ASTs new_args;
new_args.push_back(new_child);
new_args.push_back(child_func.arguments->children[1]);
return makeASTFunction(child_func.name, new_args);
}
Field zeroField(const Field & value)
{
switch (value.getType())
{
case Field::Types::UInt64: return UInt64(0);
case Field::Types::Int64: return Int64(0);
case Field::Types::Float64: return Float64(0);
case Field::Types::UInt128: return UInt128(0);
case Field::Types::Int128: return Int128(0);
default:
break;
}
throw Exception("Unexpected literal type in function", ErrorCodes::BAD_TYPE_OF_FIELD);
}
const String & changeNameIfNeeded(const String & func_name, const String & child_name, const ASTLiteral & literal)
{
static const std::unordered_map<String, std::unordered_set<String>> matches = {
{ "min", { "multiply", "divide" } },
{ "max", { "multiply", "divide" } }
};
static const std::unordered_map<String, String> swap_to = {
{ "min", "max" },
{ "max", "min" }
};
if (literal.value < zeroField(literal.value) && matches.count(func_name) && matches.find(func_name)->second.count(child_name))
return swap_to.find(func_name)->second;
return func_name;
}
ASTPtr tryExchangeFunctions(const ASTFunction & func)
{
static const std::unordered_map<String, std::unordered_set<String>> supported = {
{ "sum", { "multiply", "divide" } },
{ "min", { "multiply", "divide", "plus", "minus" } },
{ "max", { "multiply", "divide", "plus", "minus" } }
};
const ASTFunction * child_func = getInternalFunction(func);
if (!child_func || !child_func->arguments || child_func->arguments->children.size() != 2 ||
!supported.count(func.name) || !supported.find(func.name)->second.count(child_func->name))
return {};
/// Cannot rewrite function with alias cause alias could become undefined
if (!func.tryGetAlias().empty() || !child_func->tryGetAlias().empty())
return {};
const auto & child_func_args = child_func->arguments->children;
const auto * first_literal = child_func_args[0]->as<ASTLiteral>();
const auto * second_literal = child_func_args[1]->as<ASTLiteral>();
ASTPtr optimized_ast;
if (first_literal && !second_literal)
{
/// It's possible to rewrite 'sum(1/n)' with 'sum(1) * div(1/n)' but we lose accuracy. Ignored.
if (child_func->name == "divide")
return {};
const String & new_name = changeNameIfNeeded(func.name, child_func->name, *first_literal);
optimized_ast = exchangeExtractFirstArgument(new_name, *child_func);
}
else if (second_literal) /// second or both are consts
{
const String & new_name = changeNameIfNeeded(func.name, child_func->name, *second_literal);
optimized_ast = exchangeExtractSecondArgument(new_name, *child_func);
}
return optimized_ast;
}
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}
void ArithmeticOperationsInAgrFuncMatcher::visit(const ASTFunction & func, ASTPtr & ast, Data & data)
{
if (auto exchanged_funcs = tryExchangeFunctions(func))
{
ast = exchanged_funcs;
/// Main visitor is bottom-up. This is top-down part.
/// We've found an aggregate function an now move it down through others: sum(mul(mul)) -> mul(mul(sum)).
/// It's not dangerous cause main visitor already has visited this part of tree.
auto & expression_list = ast->children[0];
visit(expression_list->children[0], data);
}
}
void ArithmeticOperationsInAgrFuncMatcher::visit(ASTPtr & ast, Data & data)
{
if (const auto * function_node = ast->as<ASTFunction>())
visit(*function_node, ast, data);
}
bool ArithmeticOperationsInAgrFuncMatcher::needChildVisit(const ASTPtr & node, const ASTPtr &)
{
return !node->as<ASTSubquery>() &&
!node->as<ASTTableExpression>() &&
!node->as<ASTArrayJoin>();
}
}