#pragma once #include #include #include #include namespace DB { struct Settings; /** Not an aggregate function, but an adapter of aggregate functions. * Aggregate functions with the `SimpleState` suffix is almost identical to the corresponding ones, * except the return type becomes DataTypeCustomSimpleAggregateFunction. */ class AggregateFunctionSimpleState final : public IAggregateFunctionHelper { private: AggregateFunctionPtr nested_func; public: AggregateFunctionSimpleState(AggregateFunctionPtr nested_, const DataTypes & arguments_, const Array & params_) : IAggregateFunctionHelper(arguments_, params_) , nested_func(nested_) { } String getName() const override { return nested_func->getName() + "SimpleState"; } DataTypePtr getReturnType() const override { DataTypeCustomSimpleAggregateFunction::checkSupportedFunctions(nested_func); // Need to make a clone to avoid recursive reference. auto storage_type_out = DataTypeFactory::instance().get(nested_func->getReturnType()->getName()); // Need to make a new function with promoted argument types because SimpleAggregates requires arg_type = return_type. AggregateFunctionProperties properties; auto function = AggregateFunctionFactory::instance().get(nested_func->getName(), {storage_type_out}, nested_func->getParameters(), properties); // Need to make a clone because it'll be customized. auto storage_type_arg = DataTypeFactory::instance().get(nested_func->getReturnType()->getName()); DataTypeCustomNamePtr custom_name = std::make_unique(function, DataTypes{nested_func->getReturnType()}, parameters); storage_type_arg->setCustomization(std::make_unique(std::move(custom_name), nullptr)); return storage_type_arg; } bool isVersioned() const override { return nested_func->isVersioned(); } size_t getDefaultVersion() const override { return nested_func->getDefaultVersion(); } bool isState() const override { return nested_func->isState(); } size_t getVersionFromRevision(size_t revision) const override { return nested_func->getVersionFromRevision(revision); } void create(AggregateDataPtr __restrict place) const override { nested_func->create(place); } void destroy(AggregateDataPtr __restrict place) const noexcept override { nested_func->destroy(place); } void destroyUpToState(AggregateDataPtr __restrict place) const noexcept override { nested_func->destroyUpToState(place); } bool hasTrivialDestructor() const override { return nested_func->hasTrivialDestructor(); } size_t sizeOfData() const override { return nested_func->sizeOfData(); } size_t alignOfData() const override { return nested_func->alignOfData(); } void add(AggregateDataPtr __restrict place, const IColumn ** columns, size_t row_num, Arena * arena) const override { nested_func->add(place, columns, row_num, arena); } void merge(AggregateDataPtr __restrict place, ConstAggregateDataPtr rhs, Arena * arena) const override { nested_func->merge(place, rhs, arena); } void serialize(ConstAggregateDataPtr __restrict place, WriteBuffer & buf, std::optional version) const override { nested_func->serialize(place, buf, version); } void deserialize(AggregateDataPtr __restrict place, ReadBuffer & buf, std::optional version, Arena * arena) const override { nested_func->deserialize(place, buf, version, arena); } void insertResultInto(AggregateDataPtr __restrict place, IColumn & to, Arena * arena) const override { nested_func->insertResultInto(place, to, arena); } bool allocatesMemoryInArena() const override { return nested_func->allocatesMemoryInArena(); } AggregateFunctionPtr getNestedFunction() const override { return nested_func; } }; }