ClickHouse/src/Functions/intDiv.cpp
Li Yin 4088c0a7f3 Automated function registration
Automated register all functions with below naming convention by
iterating through the symbols:
void DB::registerXXX(DB::FunctionFactory &)
2022-07-29 15:39:50 +08:00

135 lines
5.5 KiB
C++

#include <Functions/FunctionFactory.h>
#include <Functions/FunctionBinaryArithmetic.h>
#include "divide/divide.h"
namespace DB
{
namespace ErrorCodes
{
extern const int ILLEGAL_DIVISION;
}
namespace
{
/// Optimizations for integer division by a constant.
template <typename A, typename B>
struct DivideIntegralByConstantImpl
: BinaryOperation<A, B, DivideIntegralImpl<A, B>>
{
using Op = DivideIntegralImpl<A, B>;
using ResultType = typename Op::ResultType;
static const constexpr bool allow_fixed_string = false;
static const constexpr bool allow_string_integer = false;
template <OpCase op_case>
static void NO_INLINE process(const A * __restrict a, const B * __restrict b, ResultType * __restrict c, size_t size, const NullMap * right_nullmap)
{
if constexpr (op_case == OpCase::RightConstant)
{
if (right_nullmap && (*right_nullmap)[0])
return;
vectorConstant(a, *b, c, size);
}
else
{
if (right_nullmap)
{
for (size_t i = 0; i < size; ++i)
if ((*right_nullmap)[i])
c[i] = ResultType();
else
apply<op_case>(a, b, c, i);
}
else
for (size_t i = 0; i < size; ++i)
apply<op_case>(a, b, c, i);
}
}
static ResultType process(A a, B b) { return Op::template apply<ResultType>(a, b); }
static void NO_INLINE NO_SANITIZE_UNDEFINED vectorConstant(const A * __restrict a_pos, B b, ResultType * __restrict c_pos, size_t size)
{
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wsign-compare"
/// Division by -1. By the way, we avoid FPE by division of the largest negative number by -1.
if (unlikely(is_signed_v<B> && b == -1))
{
for (size_t i = 0; i < size; ++i)
c_pos[i] = -make_unsigned_t<A>(a_pos[i]); /// Avoid UBSan report in signed integer overflow.
return;
}
/// Division with too large divisor.
if (unlikely(b > std::numeric_limits<A>::max()
|| (std::is_signed_v<A> && std::is_signed_v<B> && b < std::numeric_limits<A>::lowest())))
{
for (size_t i = 0; i < size; ++i)
c_pos[i] = 0;
return;
}
#pragma GCC diagnostic pop
if (unlikely(static_cast<A>(b) == 0))
throw Exception("Division by zero", ErrorCodes::ILLEGAL_DIVISION);
divideImpl(a_pos, b, c_pos, size);
}
private:
template <OpCase op_case>
static inline void apply(const A * __restrict a, const B * __restrict b, ResultType * __restrict c, size_t i)
{
if constexpr (op_case == OpCase::Vector)
c[i] = Op::template apply<ResultType>(a[i], b[i]);
else
c[i] = Op::template apply<ResultType>(*a, b[i]);
}
};
/** Specializations are specified for dividing numbers of the type UInt64, UInt32, Int64, Int32 by the numbers of the same sign.
* Can be expanded to all possible combinations, but more code is needed.
*/
}
namespace impl_
{
template <> struct BinaryOperationImpl<UInt64, UInt8, DivideIntegralImpl<UInt64, UInt8>> : DivideIntegralByConstantImpl<UInt64, UInt8> {};
template <> struct BinaryOperationImpl<UInt64, UInt16, DivideIntegralImpl<UInt64, UInt16>> : DivideIntegralByConstantImpl<UInt64, UInt16> {};
template <> struct BinaryOperationImpl<UInt64, UInt32, DivideIntegralImpl<UInt64, UInt32>> : DivideIntegralByConstantImpl<UInt64, UInt32> {};
template <> struct BinaryOperationImpl<UInt64, UInt64, DivideIntegralImpl<UInt64, UInt64>> : DivideIntegralByConstantImpl<UInt64, UInt64> {};
template <> struct BinaryOperationImpl<UInt32, UInt8, DivideIntegralImpl<UInt32, UInt8>> : DivideIntegralByConstantImpl<UInt32, UInt8> {};
template <> struct BinaryOperationImpl<UInt32, UInt16, DivideIntegralImpl<UInt32, UInt16>> : DivideIntegralByConstantImpl<UInt32, UInt16> {};
template <> struct BinaryOperationImpl<UInt32, UInt32, DivideIntegralImpl<UInt32, UInt32>> : DivideIntegralByConstantImpl<UInt32, UInt32> {};
template <> struct BinaryOperationImpl<UInt32, UInt64, DivideIntegralImpl<UInt32, UInt64>> : DivideIntegralByConstantImpl<UInt32, UInt64> {};
template <> struct BinaryOperationImpl<Int64, Int8, DivideIntegralImpl<Int64, Int8>> : DivideIntegralByConstantImpl<Int64, Int8> {};
template <> struct BinaryOperationImpl<Int64, Int16, DivideIntegralImpl<Int64, Int16>> : DivideIntegralByConstantImpl<Int64, Int16> {};
template <> struct BinaryOperationImpl<Int64, Int32, DivideIntegralImpl<Int64, Int32>> : DivideIntegralByConstantImpl<Int64, Int32> {};
template <> struct BinaryOperationImpl<Int64, Int64, DivideIntegralImpl<Int64, Int64>> : DivideIntegralByConstantImpl<Int64, Int64> {};
template <> struct BinaryOperationImpl<Int32, Int8, DivideIntegralImpl<Int32, Int8>> : DivideIntegralByConstantImpl<Int32, Int8> {};
template <> struct BinaryOperationImpl<Int32, Int16, DivideIntegralImpl<Int32, Int16>> : DivideIntegralByConstantImpl<Int32, Int16> {};
template <> struct BinaryOperationImpl<Int32, Int32, DivideIntegralImpl<Int32, Int32>> : DivideIntegralByConstantImpl<Int32, Int32> {};
template <> struct BinaryOperationImpl<Int32, Int64, DivideIntegralImpl<Int32, Int64>> : DivideIntegralByConstantImpl<Int32, Int64> {};
}
struct NameIntDiv { static constexpr auto name = "intDiv"; };
using FunctionIntDiv = BinaryArithmeticOverloadResolver<DivideIntegralImpl, NameIntDiv, false>;
REGISTER_FUNCTION(IntDiv)
{
factory.registerFunction<FunctionIntDiv>();
}
}