2018-11-26 16:20:40 +00:00
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#include <Functions/FunctionFactory.h>
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#include <Functions/FunctionBinaryArithmetic.h>
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2020-04-11 11:14:01 +00:00
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#if defined(__SSE2__)
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2022-06-15 13:19:29 +00:00
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# define LIBDIVIDE_SSE2
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#elif defined(__AVX512F__) || defined(__AVX512BW__) || defined(__AVX512VL__)
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# define LIBDIVIDE_AVX512
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#elif defined(__AVX2__)
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# define LIBDIVIDE_AVX2
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#elif defined(__aarch64__) && defined(__ARM_NEON)
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# define LIBDIVIDE_NEON
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2018-11-26 16:20:40 +00:00
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#endif
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#include <libdivide.h>
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namespace DB
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{
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2020-03-03 02:33:13 +00:00
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namespace ErrorCodes
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{
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extern const int ILLEGAL_DIVISION;
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}
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2020-09-07 18:00:37 +00:00
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namespace
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{
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2020-02-25 09:45:23 +00:00
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/// Optimizations for integer modulo by a constant.
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2018-11-26 16:20:40 +00:00
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template <typename A, typename B>
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struct ModuloByConstantImpl
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2020-09-15 10:31:15 +00:00
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: BinaryOperation<A, B, ModuloImpl<A, B>>
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2018-11-26 16:20:40 +00:00
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{
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2021-02-28 08:28:30 +00:00
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using Op = ModuloImpl<A, B>;
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using ResultType = typename Op::ResultType;
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2020-02-14 07:11:37 +00:00
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static const constexpr bool allow_fixed_string = false;
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2021-08-30 06:37:23 +00:00
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static const constexpr bool allow_string_integer = false;
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2018-11-26 16:20:40 +00:00
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2021-02-28 08:28:30 +00:00
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template <OpCase op_case>
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2021-08-30 12:11:05 +00:00
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static void NO_INLINE process(const A * __restrict a, const B * __restrict b, ResultType * __restrict c, size_t size, const NullMap * right_nullmap)
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2021-02-28 08:28:30 +00:00
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{
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2021-08-30 12:11:05 +00:00
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if constexpr (op_case == OpCase::RightConstant)
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{
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if (right_nullmap && (*right_nullmap)[0])
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return;
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2021-02-28 08:28:30 +00:00
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vectorConstant(a, *b, c, size);
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2021-08-30 12:11:05 +00:00
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}
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else
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{
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if (right_nullmap)
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{
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for (size_t i = 0; i < size; ++i)
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2021-10-06 21:19:37 +00:00
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if ((*right_nullmap)[i])
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c[i] = ResultType();
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else
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2021-08-30 12:11:05 +00:00
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apply<op_case>(a, b, c, i);
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}
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else
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for (size_t i = 0; i < size; ++i)
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apply<op_case>(a, b, c, i);
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}
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2021-02-28 08:28:30 +00:00
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}
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static ResultType process(A a, B b) { return Op::template apply<ResultType>(a, b); }
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2021-02-28 07:25:56 +00:00
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static void NO_INLINE NO_SANITIZE_UNDEFINED vectorConstant(const A * __restrict src, B b, ResultType * __restrict dst, size_t size)
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2018-11-26 16:20:40 +00:00
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{
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wsign-compare"
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2020-07-05 00:28:08 +00:00
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/// Modulo with too small divisor.
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2018-11-26 16:20:40 +00:00
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if (unlikely((std::is_signed_v<B> && b == -1) || b == 1))
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{
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for (size_t i = 0; i < size; ++i)
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2020-02-23 23:14:27 +00:00
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dst[i] = 0;
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2018-11-26 16:20:40 +00:00
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return;
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}
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2020-07-05 00:28:08 +00:00
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/// Modulo with too large divisor.
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if (unlikely(b > std::numeric_limits<A>::max()
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|| (std::is_signed_v<A> && std::is_signed_v<B> && b < std::numeric_limits<A>::lowest())))
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{
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for (size_t i = 0; i < size; ++i)
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2022-10-07 10:46:45 +00:00
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dst[i] = static_cast<ResultType>(src[i]);
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2020-07-05 00:28:08 +00:00
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return;
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}
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2018-11-26 16:20:40 +00:00
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#pragma GCC diagnostic pop
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2020-07-05 00:28:08 +00:00
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if (unlikely(static_cast<A>(b) == 0))
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throw Exception("Division by zero", ErrorCodes::ILLEGAL_DIVISION);
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2021-03-14 14:31:07 +00:00
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/// Division by min negative value.
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if (std::is_signed_v<B> && b == std::numeric_limits<B>::lowest())
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throw Exception("Division by the most negative number", ErrorCodes::ILLEGAL_DIVISION);
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/// Modulo of division by negative number is the same as the positive number.
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if (b < 0)
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b = -b;
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2018-11-26 16:20:40 +00:00
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/// Here we failed to make the SSE variant from libdivide give an advantage.
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2019-11-18 12:19:45 +00:00
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2019-11-13 06:49:22 +00:00
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if (b & (b - 1))
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2019-11-17 20:25:27 +00:00
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{
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2022-10-07 10:46:45 +00:00
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libdivide::divider<A> divider(static_cast<A>(b));
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2019-11-13 06:49:22 +00:00
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for (size_t i = 0; i < size; ++i)
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2022-10-07 10:46:45 +00:00
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{
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/// NOTE: perhaps, the division semantics with the remainder of negative numbers is not preserved.
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dst[i] = static_cast<ResultType>(src[i] - (src[i] / divider) * b);
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}
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2019-11-17 20:25:27 +00:00
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}
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2019-11-13 06:49:22 +00:00
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else
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{
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// gcc libdivide doesn't work well for pow2 division
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auto mask = b - 1;
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for (size_t i = 0; i < size; ++i)
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2022-10-07 10:46:45 +00:00
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dst[i] = static_cast<ResultType>(src[i] & mask);
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2019-11-13 06:49:22 +00:00
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}
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2018-11-26 16:20:40 +00:00
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}
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2021-08-30 12:11:05 +00:00
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private:
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template <OpCase op_case>
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static inline void apply(const A * __restrict a, const B * __restrict b, ResultType * __restrict c, size_t i)
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{
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if constexpr (op_case == OpCase::Vector)
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c[i] = Op::template apply<ResultType>(a[i], b[i]);
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else
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c[i] = Op::template apply<ResultType>(*a, b[i]);
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}
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2018-11-26 16:20:40 +00:00
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};
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2021-05-15 18:45:19 +00:00
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template <typename A, typename B>
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struct ModuloLegacyByConstantImpl : ModuloByConstantImpl<A, B>
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{
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using Op = ModuloLegacyImpl<A, B>;
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};
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2020-09-07 18:00:37 +00:00
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}
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2018-11-26 16:20:40 +00:00
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/** Specializations are specified for dividing numbers of the type UInt64 and UInt32 by the numbers of the same sign.
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* Can be expanded to all possible combinations, but more code is needed.
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*/
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2020-12-25 16:32:59 +00:00
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namespace impl_
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{
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2018-11-26 16:20:40 +00:00
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template <> struct BinaryOperationImpl<UInt64, UInt8, ModuloImpl<UInt64, UInt8>> : ModuloByConstantImpl<UInt64, UInt8> {};
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template <> struct BinaryOperationImpl<UInt64, UInt16, ModuloImpl<UInt64, UInt16>> : ModuloByConstantImpl<UInt64, UInt16> {};
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template <> struct BinaryOperationImpl<UInt64, UInt32, ModuloImpl<UInt64, UInt32>> : ModuloByConstantImpl<UInt64, UInt32> {};
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template <> struct BinaryOperationImpl<UInt64, UInt64, ModuloImpl<UInt64, UInt64>> : ModuloByConstantImpl<UInt64, UInt64> {};
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template <> struct BinaryOperationImpl<UInt32, UInt8, ModuloImpl<UInt32, UInt8>> : ModuloByConstantImpl<UInt32, UInt8> {};
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template <> struct BinaryOperationImpl<UInt32, UInt16, ModuloImpl<UInt32, UInt16>> : ModuloByConstantImpl<UInt32, UInt16> {};
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template <> struct BinaryOperationImpl<UInt32, UInt32, ModuloImpl<UInt32, UInt32>> : ModuloByConstantImpl<UInt32, UInt32> {};
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template <> struct BinaryOperationImpl<UInt32, UInt64, ModuloImpl<UInt32, UInt64>> : ModuloByConstantImpl<UInt32, UInt64> {};
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template <> struct BinaryOperationImpl<Int64, Int8, ModuloImpl<Int64, Int8>> : ModuloByConstantImpl<Int64, Int8> {};
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template <> struct BinaryOperationImpl<Int64, Int16, ModuloImpl<Int64, Int16>> : ModuloByConstantImpl<Int64, Int16> {};
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template <> struct BinaryOperationImpl<Int64, Int32, ModuloImpl<Int64, Int32>> : ModuloByConstantImpl<Int64, Int32> {};
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template <> struct BinaryOperationImpl<Int64, Int64, ModuloImpl<Int64, Int64>> : ModuloByConstantImpl<Int64, Int64> {};
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template <> struct BinaryOperationImpl<Int32, Int8, ModuloImpl<Int32, Int8>> : ModuloByConstantImpl<Int32, Int8> {};
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template <> struct BinaryOperationImpl<Int32, Int16, ModuloImpl<Int32, Int16>> : ModuloByConstantImpl<Int32, Int16> {};
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template <> struct BinaryOperationImpl<Int32, Int32, ModuloImpl<Int32, Int32>> : ModuloByConstantImpl<Int32, Int32> {};
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template <> struct BinaryOperationImpl<Int32, Int64, ModuloImpl<Int32, Int64>> : ModuloByConstantImpl<Int32, Int64> {};
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2020-12-25 16:32:59 +00:00
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}
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2018-11-26 16:20:40 +00:00
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struct NameModulo { static constexpr auto name = "modulo"; };
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2020-09-05 14:12:47 +00:00
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using FunctionModulo = BinaryArithmeticOverloadResolver<ModuloImpl, NameModulo, false>;
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2018-11-26 16:20:40 +00:00
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2022-07-04 07:01:39 +00:00
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REGISTER_FUNCTION(Modulo)
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2018-11-26 16:20:40 +00:00
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{
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factory.registerFunction<FunctionModulo>();
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2020-07-20 01:03:46 +00:00
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factory.registerAlias("mod", "modulo", FunctionFactory::CaseInsensitive);
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2018-11-26 16:20:40 +00:00
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}
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2021-05-15 18:45:19 +00:00
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struct NameModuloLegacy { static constexpr auto name = "moduloLegacy"; };
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2021-05-15 18:32:20 +00:00
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using FunctionModuloLegacy = BinaryArithmeticOverloadResolver<ModuloLegacyImpl, NameModuloLegacy, false>;
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2021-05-15 18:45:19 +00:00
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2022-07-04 07:01:39 +00:00
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REGISTER_FUNCTION(ModuloLegacy)
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2021-05-15 18:45:19 +00:00
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{
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factory.registerFunction<FunctionModuloLegacy>();
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}
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2018-11-26 16:20:40 +00:00
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}
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