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apache / doris / refs/heads/bugfix_bitmap / . / be / src / vec / functions / function_bit.cpp
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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the License for the
// specific language governing permissions and limitations
// under the License.
// This file is copied from
// https://github.com/ClickHouse/ClickHouse/blob/master/src/Functions/bitAnd.cpp
// and modified by Doris
#include <utility>
#include "common/status.h"
#include "runtime/define_primitive_type.h"
#include "vec/columns/column.h"
#include "vec/columns/column_string.h"
#include "vec/columns/column_vector.h"
#include "vec/common/pod_array_fwd.h"
#include "vec/core/types.h"
#include "vec/data_types/data_type_number.h"
#include "vec/data_types/number_traits.h"
#include "vec/functions/function_totype.h"
#include "vec/functions/function_unary_arithmetic.h"
#include "vec/functions/simple_function_factory.h"
namespace doris::vectorized {
template <typename Impl>
class FunctionBit : public IFunction {
public:
static constexpr auto name = Impl::name;
String get_name() const override { return name; }
static FunctionPtr create() { return std::make_shared<FunctionBit<Impl>>(); }
DataTypes get_variadic_argument_types_impl() const override {
return {std::make_shared<typename Impl::DataType>(),
std::make_shared<typename Impl::DataType>()};
}
DataTypePtr get_return_type_impl(const DataTypes& arguments) const override {
return std::make_shared<typename Impl::DataType>();
}
size_t get_number_of_arguments() const override { return 2; }
Status execute_impl(FunctionContext* context, Block& block, const ColumnNumbers& arguments,
uint32_t result, size_t input_rows_count) const override {
auto& column_left = block.get_by_position(arguments[0]).column;
auto& column_right = block.get_by_position(arguments[1]).column;
bool is_const_left = is_column_const(*column_left);
bool is_const_right = is_column_const(*column_right);
ColumnPtr column_result = nullptr;
if (is_const_left && is_const_right) {
column_result = constant_constant(column_left, column_right);
} else if (is_const_left) {
column_result = constant_vector(column_left, column_right);
} else if (is_const_right) {
column_result = vector_constant(column_left, column_right);
} else {
column_result = vector_vector(column_left, column_right);
}
block.replace_by_position(result, std::move(column_result));
return Status::OK();
}
private:
ColumnPtr constant_constant(ColumnPtr column_left, ColumnPtr column_right) const {
const auto* column_left_ptr = assert_cast<const ColumnConst*>(column_left.get());
const auto* column_right_ptr = assert_cast<const ColumnConst*>(column_right.get());
ColumnPtr column_result = nullptr;
auto res = Impl::ColumnType::create(1);
res->get_element(0) =
Impl::apply(column_left_ptr->template get_value<typename Impl::Arg>(),
column_right_ptr->template get_value<typename Impl::Arg>());
column_result = std::move(res);
return ColumnConst::create(std::move(column_result), column_left->size());
}
ColumnPtr vector_constant(ColumnPtr column_left, ColumnPtr column_right) const {
const auto* column_right_ptr = assert_cast<const ColumnConst*>(column_right.get());
const auto* column_left_ptr =
assert_cast<const typename Impl::ColumnType*>(column_left.get());
auto column_result = Impl::ColumnType::create(column_left->size());
auto& a = column_left_ptr->get_data();
auto& c = column_result->get_data();
size_t size = a.size();
for (size_t i = 0; i < size; ++i) {
c[i] = Impl::apply(a[i], column_right_ptr->template get_value<typename Impl::Arg>());
}
return column_result;
}
ColumnPtr constant_vector(ColumnPtr column_left, ColumnPtr column_right) const {
const auto* column_left_ptr = assert_cast<const ColumnConst*>(column_left.get());
const auto* column_right_ptr =
assert_cast<const typename Impl::ColumnType*>(column_right.get());
auto column_result = Impl::ColumnType::create(column_right->size());
auto& b = column_right_ptr->get_data();
auto& c = column_result->get_data();
size_t size = b.size();
for (size_t i = 0; i < size; ++i) {
c[i] = Impl::apply(column_left_ptr->template get_value<typename Impl::Arg>(), b[i]);
}
return column_result;
}
ColumnPtr vector_vector(ColumnPtr column_left, ColumnPtr column_right) const {
const auto* column_left_ptr =
assert_cast<const typename Impl::ColumnType*>(column_left->get_ptr().get());
const auto* column_right_ptr =
assert_cast<const typename Impl::ColumnType*>(column_right->get_ptr().get());
auto column_result = Impl::ColumnType::create(column_left->size());
auto& a = column_left_ptr->get_data();
auto& b = column_right_ptr->get_data();
auto& c = column_result->get_data();
size_t size = a.size();
for (size_t i = 0; i < size; ++i) {
c[i] = Impl::apply(a[i], b[i]);
}
return column_result;
}
};
template <PrimitiveType PType>
struct BitAndImpl {
static_assert(is_int(PType));
using Arg = typename PrimitiveTypeTraits<PType>::CppNativeType;
using DataType = typename PrimitiveTypeTraits<PType>::DataType;
using ColumnType = typename PrimitiveTypeTraits<PType>::ColumnType;
static constexpr auto name = "bitand";
static constexpr bool is_nullable = false;
static inline Arg apply(Arg a, Arg b) { return a & b; }
};
template <PrimitiveType PType>
struct BitOrImpl {
static_assert(is_int(PType));
using Arg = typename PrimitiveTypeTraits<PType>::CppNativeType;
using DataType = typename PrimitiveTypeTraits<PType>::DataType;
using ColumnType = typename PrimitiveTypeTraits<PType>::ColumnType;
static constexpr auto name = "bitor";
static constexpr bool is_nullable = false;
static inline Arg apply(Arg a, Arg b) { return a | b; }
};
template <PrimitiveType PType>
struct BitXorImpl {
static_assert(is_int(PType));
using Arg = typename PrimitiveTypeTraits<PType>::CppNativeType;
using DataType = typename PrimitiveTypeTraits<PType>::DataType;
using ColumnType = typename PrimitiveTypeTraits<PType>::ColumnType;
static constexpr auto name = "bitxor";
static constexpr bool is_nullable = false;
static inline Arg apply(Arg a, Arg b) { return a ^ b; }
};
struct NameBitNot {
static constexpr auto name = "bitnot";
};
template <typename A>
struct BitNotImpl {
static constexpr PrimitiveType ResultType = NumberTraits::ResultOfBitNot<A>::Type;
static inline typename PrimitiveTypeTraits<ResultType>::ColumnItemType apply(A a) {
return ~static_cast<typename PrimitiveTypeTraits<ResultType>::ColumnItemType>(a);
}
};
struct NameBitLength {
static constexpr auto name = "bit_length";
};
struct BitLengthImpl {
using ReturnType = DataTypeInt32;
static constexpr auto PrimitiveTypeImpl = PrimitiveType::TYPE_STRING;
using Type = String;
using ReturnColumnType = ColumnInt32;
static Status vector(const ColumnString::Chars& data, const ColumnString::Offsets& offsets,
PaddedPODArray<Int32>& res) {
auto size = offsets.size();
res.resize(size);
for (int i = 0; i < size; ++i) {
int str_size = offsets[i] - offsets[i - 1];
res[i] = (str_size * 8);
}
return Status::OK();
}
};
using FunctionBitNotTinyInt = FunctionUnaryArithmetic<BitNotImpl<Int8>, NameBitNot, TYPE_TINYINT>;
using FunctionBitNotSmallInt =
FunctionUnaryArithmetic<BitNotImpl<Int16>, NameBitNot, TYPE_SMALLINT>;
using FunctionBitNotInt = FunctionUnaryArithmetic<BitNotImpl<Int32>, NameBitNot, TYPE_INT>;
using FunctionBitNotBigInt = FunctionUnaryArithmetic<BitNotImpl<Int64>, NameBitNot, TYPE_BIGINT>;
using FunctionBitNotLargeInt =
FunctionUnaryArithmetic<BitNotImpl<Int128>, NameBitNot, TYPE_LARGEINT>;
using FunctionBitLength = FunctionUnaryToType<BitLengthImpl, NameBitLength>;
void register_function_bit(SimpleFunctionFactory& factory) {
factory.register_function<FunctionBit<BitAndImpl<TYPE_TINYINT>>>();
factory.register_function<FunctionBit<BitAndImpl<TYPE_SMALLINT>>>();
factory.register_function<FunctionBit<BitAndImpl<TYPE_INT>>>();
factory.register_function<FunctionBit<BitAndImpl<TYPE_BIGINT>>>();
factory.register_function<FunctionBit<BitAndImpl<TYPE_LARGEINT>>>();
factory.register_function<FunctionBit<BitOrImpl<TYPE_TINYINT>>>();
factory.register_function<FunctionBit<BitOrImpl<TYPE_SMALLINT>>>();
factory.register_function<FunctionBit<BitOrImpl<TYPE_INT>>>();
factory.register_function<FunctionBit<BitOrImpl<TYPE_BIGINT>>>();
factory.register_function<FunctionBit<BitOrImpl<TYPE_LARGEINT>>>();
factory.register_function<FunctionBit<BitXorImpl<TYPE_TINYINT>>>();
factory.register_function<FunctionBit<BitXorImpl<TYPE_SMALLINT>>>();
factory.register_function<FunctionBit<BitXorImpl<TYPE_INT>>>();
factory.register_function<FunctionBit<BitXorImpl<TYPE_BIGINT>>>();
factory.register_function<FunctionBit<BitXorImpl<TYPE_LARGEINT>>>();
factory.register_function<FunctionBitNotTinyInt>();
factory.register_function<FunctionBitNotSmallInt>();
factory.register_function<FunctionBitNotInt>();
factory.register_function<FunctionBitNotBigInt>();
factory.register_function<FunctionBitNotLargeInt>();
factory.register_function<FunctionBitLength>();
}
} // namespace doris::vectorized