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236 lines
8.6 KiB
C++
236 lines
8.6 KiB
C++
#pragma once
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#include <type_traits>
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#include <Core/Types.h>
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namespace DB
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{
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/** Allows get the result type of the functions +, -, *, /, %, intDiv (integer division).
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* The rules are different from those used in C++.
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*/
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namespace NumberTraits
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{
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struct Error {};
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constexpr size_t max(size_t x, size_t y)
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{
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return x > y ? x : y;
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}
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constexpr size_t min(size_t x, size_t y)
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{
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return x < y ? x : y;
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}
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/// @note There's no auto scale to larger big integer, only for integral ones.
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/// It's cause of (U)Int64 backward compatibility and very big performance penalties.
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constexpr size_t nextSize(size_t size)
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{
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if (size < 8)
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return size * 2;
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return size;
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}
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template <bool is_signed, bool is_floating, size_t size>
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struct Construct
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{
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using Type = Error;
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};
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template <> struct Construct<false, false, 1> { using Type = UInt8; };
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template <> struct Construct<false, false, 2> { using Type = UInt16; };
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template <> struct Construct<false, false, 4> { using Type = UInt32; };
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template <> struct Construct<false, false, 8> { using Type = UInt64; };
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template <> struct Construct<false, false, 16> { using Type = UInt128; };
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template <> struct Construct<false, false, 32> { using Type = UInt256; };
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template <> struct Construct<false, true, 1> { using Type = Float32; };
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template <> struct Construct<false, true, 2> { using Type = Float32; };
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template <> struct Construct<false, true, 4> { using Type = Float32; };
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template <> struct Construct<false, true, 8> { using Type = Float64; };
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template <> struct Construct<true, false, 1> { using Type = Int8; };
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template <> struct Construct<true, false, 2> { using Type = Int16; };
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template <> struct Construct<true, false, 4> { using Type = Int32; };
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template <> struct Construct<true, false, 8> { using Type = Int64; };
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template <> struct Construct<true, false, 16> { using Type = Int128; };
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template <> struct Construct<true, false, 32> { using Type = Int256; };
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template <> struct Construct<true, true, 1> { using Type = Float32; };
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template <> struct Construct<true, true, 2> { using Type = Float32; };
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template <> struct Construct<true, true, 4> { using Type = Float32; };
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template <> struct Construct<true, true, 8> { using Type = Float64; };
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/** The result of addition or multiplication is calculated according to the following rules:
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* - if one of the arguments is floating-point, the result is a floating point, otherwise - the whole;
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* - if one of the arguments is signed, the result is signed, otherwise it is unsigned;
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* - the result contains more bits (not only meaningful) than the maximum in the arguments
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* (for example, UInt8 + Int32 = Int64).
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*/
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template <typename A, typename B> struct ResultOfAdditionMultiplication
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{
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using Type = typename Construct<
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is_signed_v<A> || is_signed_v<B>,
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std::is_floating_point_v<A> || std::is_floating_point_v<B>,
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nextSize(max(sizeof(A), sizeof(B)))>::Type;
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};
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template <typename A, typename B> struct ResultOfSubtraction
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{
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using Type = typename Construct<
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true,
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std::is_floating_point_v<A> || std::is_floating_point_v<B>,
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nextSize(max(sizeof(A), sizeof(B)))>::Type;
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};
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/** When dividing, you always get a floating-point number.
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*/
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template <typename A, typename B> struct ResultOfFloatingPointDivision
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{
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using Type = Float64;
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};
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/** For integer division, we get a number with the same number of bits as in divisible.
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*/
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template <typename A, typename B> struct ResultOfIntegerDivision
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{
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using Type = typename Construct<
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is_signed_v<A> || is_signed_v<B>,
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false,
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sizeof(A)>::Type;
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};
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/** Division with remainder you get a number with the same number of bits as in divisor,
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* or larger in case of signed type.
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*/
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template <typename A, typename B> struct ResultOfModulo
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{
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static constexpr bool result_is_signed = is_signed_v<A>;
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/// If modulo of division can yield negative number, we need larger type to accommodate it.
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/// Example: toInt32(-199) % toUInt8(200) will return -199 that does not fit in Int8, only in Int16.
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static constexpr size_t size_of_result = result_is_signed ? nextSize(sizeof(B)) : sizeof(B);
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using Type0 = typename Construct<result_is_signed, false, size_of_result>::Type;
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using Type = std::conditional_t<std::is_floating_point_v<A> || std::is_floating_point_v<B>, Float64, Type0>;
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};
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template <typename A, typename B> struct ResultOfModuloLegacy
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{
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using Type0 = typename Construct<is_signed_v<A> || is_signed_v<B>, false, sizeof(B)>::Type;
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using Type = std::conditional_t<std::is_floating_point_v<A> || std::is_floating_point_v<B>, Float64, Type0>;
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};
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template <typename A> struct ResultOfNegate
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{
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using Type = typename Construct<
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true,
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std::is_floating_point_v<A>,
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is_signed_v<A> ? sizeof(A) : nextSize(sizeof(A))>::Type;
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};
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template <typename A> struct ResultOfAbs
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{
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using Type = typename Construct<
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false,
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std::is_floating_point_v<A>,
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sizeof(A)>::Type;
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};
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/** For bitwise operations, an integer is obtained with number of bits is equal to the maximum of the arguments.
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*/
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template <typename A, typename B> struct ResultOfBit
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{
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using Type = typename Construct<
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is_signed_v<A> || is_signed_v<B>,
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false,
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std::is_floating_point_v<A> || std::is_floating_point_v<B> ? 8 : max(sizeof(A), sizeof(B))>::Type;
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};
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template <typename A> struct ResultOfBitNot
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{
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using Type = typename Construct<
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is_signed_v<A>,
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false,
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sizeof(A)>::Type;
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};
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/** Type casting for `if` function:
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* UInt<x>, UInt<y> -> UInt<max(x,y)>
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* Int<x>, Int<y> -> Int<max(x,y)>
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* Float<x>, Float<y> -> Float<max(x, y)>
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* UInt<x>, Int<y> -> Int<max(x*2, y)>
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* Float<x>, [U]Int<y> -> Float<max(x, y*2)>
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* Decimal<x>, Decimal<y> -> Decimal<max(x,y)>
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* UUID, UUID -> UUID
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* UInt64 , Int<x> -> Error
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* Float<x>, [U]Int64 -> Error
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*/
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template <typename A, typename B>
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struct ResultOfIf
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{
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static constexpr bool has_float = std::is_floating_point_v<A> || std::is_floating_point_v<B>;
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static constexpr bool has_integer = is_integer_v<A> || is_integer_v<B>;
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static constexpr bool has_signed = is_signed_v<A> || is_signed_v<B>;
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static constexpr bool has_unsigned = !is_signed_v<A> || !is_signed_v<B>;
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static constexpr bool has_big_int = is_big_int_v<A> || is_big_int_v<B>;
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static constexpr size_t max_size_of_unsigned_integer = max(is_signed_v<A> ? 0 : sizeof(A), is_signed_v<B> ? 0 : sizeof(B));
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static constexpr size_t max_size_of_signed_integer = max(is_signed_v<A> ? sizeof(A) : 0, is_signed_v<B> ? sizeof(B) : 0);
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static constexpr size_t max_size_of_integer = max(is_integer_v<A> ? sizeof(A) : 0, is_integer_v<B> ? sizeof(B) : 0);
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static constexpr size_t max_size_of_float = max(std::is_floating_point_v<A> ? sizeof(A) : 0, std::is_floating_point_v<B> ? sizeof(B) : 0);
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using ConstructedType = typename Construct<has_signed, has_float,
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((has_float && has_integer && max_size_of_integer >= max_size_of_float)
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|| (has_signed && has_unsigned && max_size_of_unsigned_integer >= max_size_of_signed_integer))
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? max(sizeof(A), sizeof(B)) * 2
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: max(sizeof(A), sizeof(B))>::Type;
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using Type =
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std::conditional_t<std::is_same_v<A, B>, A,
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std::conditional_t<IsDecimalNumber<A> && IsDecimalNumber<B>,
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std::conditional_t<(sizeof(A) > sizeof(B)), A, B>,
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std::conditional_t<!IsDecimalNumber<A> && !IsDecimalNumber<B>,
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ConstructedType, Error>>>;
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};
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/** Before applying operator `%` and bitwise operations, operands are casted to whole numbers. */
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template <typename A> struct ToInteger
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{
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using Type = typename Construct<
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is_signed_v<A>,
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false,
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std::is_floating_point_v<A> ? 8 : sizeof(A)>::Type;
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};
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// CLICKHOUSE-29. The same depth, different signs
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// NOTE: This case is applied for 64-bit integers only (for backward compatibility), but could be used for any-bit integers
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template <typename A, typename B>
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constexpr bool LeastGreatestSpecialCase =
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std::is_integral_v<A> && std::is_integral_v<B>
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&& (8 == sizeof(A) && sizeof(A) == sizeof(B))
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&& (is_signed_v<A> ^ is_signed_v<B>);
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template <typename A, typename B>
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using ResultOfLeast = std::conditional_t<LeastGreatestSpecialCase<A, B>,
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typename Construct<true, false, sizeof(A)>::Type,
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typename ResultOfIf<A, B>::Type>;
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template <typename A, typename B>
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using ResultOfGreatest = std::conditional_t<LeastGreatestSpecialCase<A, B>,
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typename Construct<false, false, sizeof(A)>::Type,
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typename ResultOfIf<A, B>::Type>;
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}
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template <typename T>
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static inline auto littleBits(const T & x)
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{
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return static_cast<UInt8>(x);
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}
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}
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