Another 256-bit integers (strict 32 bytes) (#14229)

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Artem Zuikov 2020-09-04 16:33:02 +03:00 committed by GitHub
parent f8aa6cfe8a
commit 7c20aa2c62
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35 changed files with 2383 additions and 187 deletions

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@ -38,18 +38,18 @@ namespace common
}
template <>
inline bool addOverflow(bInt256 x, bInt256 y, bInt256 & res)
inline bool addOverflow(wInt256 x, wInt256 y, wInt256 & res)
{
res = x + y;
return (y > 0 && x > std::numeric_limits<bInt256>::max() - y) ||
(y < 0 && x < std::numeric_limits<bInt256>::min() - y);
return (y > 0 && x > std::numeric_limits<wInt256>::max() - y) ||
(y < 0 && x < std::numeric_limits<wInt256>::min() - y);
}
template <>
inline bool addOverflow(bUInt256 x, bUInt256 y, bUInt256 & res)
inline bool addOverflow(wUInt256 x, wUInt256 y, wUInt256 & res)
{
res = x + y;
return x > std::numeric_limits<bUInt256>::max() - y;
return x > std::numeric_limits<wUInt256>::max() - y;
}
template <typename T>
@ -86,15 +86,15 @@ namespace common
}
template <>
inline bool subOverflow(bInt256 x, bInt256 y, bInt256 & res)
inline bool subOverflow(wInt256 x, wInt256 y, wInt256 & res)
{
res = x - y;
return (y < 0 && x > std::numeric_limits<bInt256>::max() + y) ||
(y > 0 && x < std::numeric_limits<bInt256>::min() + y);
return (y < 0 && x > std::numeric_limits<wInt256>::max() + y) ||
(y > 0 && x < std::numeric_limits<wInt256>::min() + y);
}
template <>
inline bool subOverflow(bUInt256 x, bUInt256 y, bUInt256 & res)
inline bool subOverflow(wUInt256 x, wUInt256 y, wUInt256 & res)
{
res = x - y;
return x < y;
@ -137,19 +137,19 @@ namespace common
}
template <>
inline bool mulOverflow(bInt256 x, bInt256 y, bInt256 & res)
inline bool mulOverflow(wInt256 x, wInt256 y, wInt256 & res)
{
res = x * y;
if (!x || !y)
return false;
bInt256 a = (x > 0) ? x : -x;
bInt256 b = (y > 0) ? y : -y;
wInt256 a = (x > 0) ? x : -x;
wInt256 b = (y > 0) ? y : -y;
return (a * b) / b != a;
}
template <>
inline bool mulOverflow(bUInt256 x, bUInt256 y, bUInt256 & res)
inline bool mulOverflow(wUInt256 x, wUInt256 y, wUInt256 & res)
{
res = x * y;
if (!x || !y)

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@ -6,7 +6,7 @@
#include <string>
#include <type_traits>
#include <boost/multiprecision/cpp_int.hpp>
#include <common/wide_integer.h>
using Int8 = int8_t;
using Int16 = int16_t;
@ -25,12 +25,11 @@ using UInt64 = uint64_t;
using Int128 = __int128;
/// We have to use 127 and 255 bit integers to safe a bit for a sign serialization
//using bInt256 = boost::multiprecision::int256_t;
using bInt256 = boost::multiprecision::number<boost::multiprecision::cpp_int_backend<
255, 255, boost::multiprecision::signed_magnitude, boost::multiprecision::unchecked, void> >;
using bUInt256 = boost::multiprecision::uint256_t;
using wInt256 = std::wide_integer<256, signed>;
using wUInt256 = std::wide_integer<256, unsigned>;
static_assert(sizeof(wInt256) == 32);
static_assert(sizeof(wUInt256) == 32);
using String = std::string;
@ -44,7 +43,7 @@ struct is_signed
};
template <> struct is_signed<Int128> { static constexpr bool value = true; };
template <> struct is_signed<bInt256> { static constexpr bool value = true; };
template <> struct is_signed<wInt256> { static constexpr bool value = true; };
template <typename T>
inline constexpr bool is_signed_v = is_signed<T>::value;
@ -55,7 +54,7 @@ struct is_unsigned
static constexpr bool value = std::is_unsigned_v<T>;
};
template <> struct is_unsigned<bUInt256> { static constexpr bool value = true; };
template <> struct is_unsigned<wUInt256> { static constexpr bool value = true; };
template <typename T>
inline constexpr bool is_unsigned_v = is_unsigned<T>::value;
@ -69,8 +68,8 @@ struct is_integer
};
template <> struct is_integer<Int128> { static constexpr bool value = true; };
template <> struct is_integer<bInt256> { static constexpr bool value = true; };
template <> struct is_integer<bUInt256> { static constexpr bool value = true; };
template <> struct is_integer<wInt256> { static constexpr bool value = true; };
template <> struct is_integer<wUInt256> { static constexpr bool value = true; };
template <typename T>
inline constexpr bool is_integer_v = is_integer<T>::value;
@ -93,9 +92,9 @@ struct make_unsigned
typedef std::make_unsigned_t<T> type;
};
template <> struct make_unsigned<__int128> { using type = unsigned __int128; };
template <> struct make_unsigned<bInt256> { using type = bUInt256; };
template <> struct make_unsigned<bUInt256> { using type = bUInt256; };
template <> struct make_unsigned<Int128> { using type = unsigned __int128; };
template <> struct make_unsigned<wInt256> { using type = wUInt256; };
template <> struct make_unsigned<wUInt256> { using type = wUInt256; };
template <typename T> using make_unsigned_t = typename make_unsigned<T>::type;
@ -105,8 +104,8 @@ struct make_signed
typedef std::make_signed_t<T> type;
};
template <> struct make_signed<bInt256> { typedef bInt256 type; };
template <> struct make_signed<bUInt256> { typedef bInt256 type; };
template <> struct make_signed<wInt256> { using type = wInt256; };
template <> struct make_signed<wUInt256> { using type = wInt256; };
template <typename T> using make_signed_t = typename make_signed<T>::type;
@ -116,8 +115,8 @@ struct is_big_int
static constexpr bool value = false;
};
template <> struct is_big_int<bUInt256> { static constexpr bool value = true; };
template <> struct is_big_int<bInt256> { static constexpr bool value = true; };
template <> struct is_big_int<wInt256> { static constexpr bool value = true; };
template <> struct is_big_int<wUInt256> { static constexpr bool value = true; };
template <typename T>
inline constexpr bool is_big_int_v = is_big_int<T>::value;
@ -125,14 +124,11 @@ inline constexpr bool is_big_int_v = is_big_int<T>::value;
template <typename T>
inline std::string bigintToString(const T & x)
{
return x.str();
return to_string(x);
}
template <typename To, typename From>
inline To bigint_cast(const From & x [[maybe_unused]])
{
if constexpr ((is_big_int_v<From> && std::is_same_v<To, UInt8>) || (is_big_int_v<To> && std::is_same_v<From, UInt8>))
return static_cast<uint8_t>(x);
else
return static_cast<To>(x);
}

249
base/common/wide_integer.h Normal file
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@ -0,0 +1,249 @@
#pragma once
///////////////////////////////////////////////////////////////
// Distributed under the Boost Software License, Version 1.0.
// (See at http://www.boost.org/LICENSE_1_0.txt)
///////////////////////////////////////////////////////////////
/* Divide and multiply
*
*
* Copyright (c) 2008
* Evan Teran
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted, provided
* that the above copyright notice appears in all copies and that both the
* copyright notice and this permission notice appear in supporting
* documentation, and that the same name not be used in advertising or
* publicity pertaining to distribution of the software without specific,
* written prior permission. We make no representations about the
* suitability this software for any purpose. It is provided "as is"
* without express or implied warranty.
*/
#include <climits> // CHAR_BIT
#include <cmath>
#include <cstdint>
#include <limits>
#include <type_traits>
namespace std
{
template <size_t Bits, typename Signed>
class wide_integer;
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
struct common_type<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>>;
template <size_t Bits, typename Signed, typename Arithmetic>
struct common_type<wide_integer<Bits, Signed>, Arithmetic>;
template <typename Arithmetic, size_t Bits, typename Signed>
struct common_type<Arithmetic, wide_integer<Bits, Signed>>;
template <size_t Bits, typename Signed>
class wide_integer
{
public:
using base_type = uint8_t;
using signed_base_type = int8_t;
// ctors
wide_integer() = default;
template <typename T>
constexpr wide_integer(T rhs) noexcept;
template <typename T>
constexpr wide_integer(std::initializer_list<T> il) noexcept;
// assignment
template <size_t Bits2, typename Signed2>
constexpr wide_integer<Bits, Signed> & operator=(const wide_integer<Bits2, Signed2> & rhs) noexcept;
template <typename Arithmetic>
constexpr wide_integer<Bits, Signed> & operator=(Arithmetic rhs) noexcept;
template <typename Arithmetic>
constexpr wide_integer<Bits, Signed> & operator*=(const Arithmetic & rhs);
template <typename Arithmetic>
constexpr wide_integer<Bits, Signed> & operator/=(const Arithmetic & rhs);
template <typename Arithmetic>
constexpr wide_integer<Bits, Signed> & operator+=(const Arithmetic & rhs) noexcept(is_same<Signed, unsigned>::value);
template <typename Arithmetic>
constexpr wide_integer<Bits, Signed> & operator-=(const Arithmetic & rhs) noexcept(is_same<Signed, unsigned>::value);
template <typename Integral>
constexpr wide_integer<Bits, Signed> & operator%=(const Integral & rhs);
template <typename Integral>
constexpr wide_integer<Bits, Signed> & operator&=(const Integral & rhs) noexcept;
template <typename Integral>
constexpr wide_integer<Bits, Signed> & operator|=(const Integral & rhs) noexcept;
template <typename Integral>
constexpr wide_integer<Bits, Signed> & operator^=(const Integral & rhs) noexcept;
constexpr wide_integer<Bits, Signed> & operator<<=(int n);
constexpr wide_integer<Bits, Signed> & operator>>=(int n) noexcept;
constexpr wide_integer<Bits, Signed> & operator++() noexcept(is_same<Signed, unsigned>::value);
constexpr wide_integer<Bits, Signed> operator++(int) noexcept(is_same<Signed, unsigned>::value);
constexpr wide_integer<Bits, Signed> & operator--() noexcept(is_same<Signed, unsigned>::value);
constexpr wide_integer<Bits, Signed> operator--(int) noexcept(is_same<Signed, unsigned>::value);
// observers
constexpr explicit operator bool() const noexcept;
template <class T>
using __integral_not_wide_integer_class = typename std::enable_if<std::is_arithmetic<T>::value, T>::type;
template <class T, class = __integral_not_wide_integer_class<T>>
constexpr operator T() const noexcept;
constexpr operator long double() const noexcept;
constexpr operator double() const noexcept;
constexpr operator float() const noexcept;
struct _impl;
private:
template <size_t Bits2, typename Signed2>
friend class wide_integer;
friend class numeric_limits<wide_integer<Bits, signed>>;
friend class numeric_limits<wide_integer<Bits, unsigned>>;
base_type m_arr[_impl::arr_size];
};
template <typename T>
static constexpr bool ArithmeticConcept() noexcept;
template <class T1, class T2>
using __only_arithmetic = typename std::enable_if<ArithmeticConcept<T1>() && ArithmeticConcept<T2>()>::type;
template <typename T>
static constexpr bool IntegralConcept() noexcept;
template <class T, class T2>
using __only_integer = typename std::enable_if<IntegralConcept<T>() && IntegralConcept<T2>()>::type;
// Unary operators
template <size_t Bits, typename Signed>
constexpr wide_integer<Bits, Signed> operator~(const wide_integer<Bits, Signed> & lhs) noexcept;
template <size_t Bits, typename Signed>
constexpr wide_integer<Bits, Signed> operator-(const wide_integer<Bits, Signed> & lhs) noexcept(is_same<Signed, unsigned>::value);
template <size_t Bits, typename Signed>
constexpr wide_integer<Bits, Signed> operator+(const wide_integer<Bits, Signed> & lhs) noexcept(is_same<Signed, unsigned>::value);
// Binary operators
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator*(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
std::common_type_t<Arithmetic, Arithmetic2> constexpr operator*(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator/(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
std::common_type_t<Arithmetic, Arithmetic2> constexpr operator/(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator+(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
std::common_type_t<Arithmetic, Arithmetic2> constexpr operator+(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator-(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
std::common_type_t<Arithmetic, Arithmetic2> constexpr operator-(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator%(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Integral, typename Integral2, class = __only_integer<Integral, Integral2>>
std::common_type_t<Integral, Integral2> constexpr operator%(const Integral & rhs, const Integral2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator&(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Integral, typename Integral2, class = __only_integer<Integral, Integral2>>
std::common_type_t<Integral, Integral2> constexpr operator&(const Integral & rhs, const Integral2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator|(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Integral, typename Integral2, class = __only_integer<Integral, Integral2>>
std::common_type_t<Integral, Integral2> constexpr operator|(const Integral & rhs, const Integral2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
std::common_type_t<wide_integer<Bits, Signed>, wide_integer<Bits2, Signed2>> constexpr
operator^(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Integral, typename Integral2, class = __only_integer<Integral, Integral2>>
std::common_type_t<Integral, Integral2> constexpr operator^(const Integral & rhs, const Integral2 & lhs);
// TODO: Integral
template <size_t Bits, typename Signed>
constexpr wide_integer<Bits, Signed> operator<<(const wide_integer<Bits, Signed> & lhs, int n) noexcept;
template <size_t Bits, typename Signed>
constexpr wide_integer<Bits, Signed> operator>>(const wide_integer<Bits, Signed> & lhs, int n) noexcept;
template <size_t Bits, typename Signed, typename Int, typename = std::enable_if_t<!std::is_same_v<Int, int>>>
constexpr wide_integer<Bits, Signed> operator<<(const wide_integer<Bits, Signed> & lhs, Int n) noexcept
{
return lhs << int(n);
}
template <size_t Bits, typename Signed, typename Int, typename = std::enable_if_t<!std::is_same_v<Int, int>>>
constexpr wide_integer<Bits, Signed> operator>>(const wide_integer<Bits, Signed> & lhs, Int n) noexcept
{
return lhs >> int(n);
}
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator<(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator<(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator>(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator>(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator<=(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator<=(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator>=(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator>=(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator==(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator==(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed, size_t Bits2, typename Signed2>
constexpr bool operator!=(const wide_integer<Bits, Signed> & lhs, const wide_integer<Bits2, Signed2> & rhs);
template <typename Arithmetic, typename Arithmetic2, class = __only_arithmetic<Arithmetic, Arithmetic2>>
constexpr bool operator!=(const Arithmetic & rhs, const Arithmetic2 & lhs);
template <size_t Bits, typename Signed>
std::string to_string(const wide_integer<Bits, Signed> & n);
template <size_t Bits, typename Signed>
struct hash<wide_integer<Bits, Signed>>;
}
#include "wide_integer_impl.h"

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@ -126,7 +126,7 @@ public:
bool isNumeric() const override { return false; }
bool canBeInsideNullable() const override { return true; }
bool isFixedAndContiguous() const override { return is_POD; }
bool isFixedAndContiguous() const override { return true; }
size_t sizeOfValueIfFixed() const override { return sizeof(T); }
size_t size() const override { return data.size(); }

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@ -12,11 +12,6 @@
namespace DB
{
namespace ErrorCodes
{
extern const int NOT_IMPLEMENTED;
}
/** Stuff for comparing numbers.
* Integer values are compared as usual.
* Floating-point numbers are compared this way that NaNs always end up at the end
@ -298,23 +293,17 @@ public:
void gather(ColumnGathererStream & gatherer_stream) override;
bool canBeInsideNullable() const override { return true; }
bool isFixedAndContiguous() const override { return is_POD; }
bool isFixedAndContiguous() const override { return true; }
size_t sizeOfValueIfFixed() const override { return sizeof(T); }
StringRef getRawData() const override
{
if constexpr (is_POD)
return StringRef(reinterpret_cast<const char*>(data.data()), byteSize());
else
throw Exception("getRawData() is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
}
StringRef getDataAt(size_t n) const override
{
if constexpr (is_POD)
return StringRef(reinterpret_cast<const char *>(&data[n]), sizeof(data[n]));
else
throw Exception("getDataAt() is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
}
bool structureEquals(const IColumn & rhs) const override

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@ -1,6 +1,7 @@
#pragma once
#include <Core/Types.h>
#include <Core/BigInt.h>
#include <Common/UInt128.h>
#include <common/unaligned.h>
@ -89,8 +90,7 @@ template <typename T>
inline typename std::enable_if<is_big_int_v<T>, DB::UInt64>::type
intHashCRC32(const T & x, DB::UInt64 updated_value)
{
std::vector<UInt64> parts;
export_bits(x, std::back_inserter(parts), sizeof(UInt64), false);
std::vector<UInt64> parts = DB::BigInt<T>::toIntArray(x);
for (const auto & part : parts)
updated_value = intHashCRC32(part, updated_value);
@ -199,7 +199,7 @@ inline size_t DefaultHash64(std::enable_if_t<(sizeof(T) > sizeof(UInt64)), T> ke
{
return intHash64(key.low ^ key.high);
}
else if constexpr (std::is_same_v<T, bInt256> || std::is_same_v<T, bUInt256>)
else if constexpr (is_big_int_v<T> && sizeof(T) == 32)
{
return intHash64(static_cast<UInt64>(key) ^
static_cast<UInt64>(key >> 64) ^
@ -256,7 +256,7 @@ inline size_t hashCRC32(std::enable_if_t<(sizeof(T) > sizeof(UInt64)), T> key)
{
return intHashCRC32(key.low ^ key.high);
}
else if constexpr (std::is_same_v<T, bInt256> || std::is_same_v<T, bUInt256>)
else if constexpr (is_big_int_v<T> && sizeof(T) == 32)
{
return intHashCRC32(static_cast<UInt64>(key) ^
static_cast<UInt64>(key >> 64) ^
@ -358,7 +358,7 @@ struct IntHash32
{
return intHash32<salt>(key.low ^ key.high);
}
else if constexpr (std::is_same_v<T, bInt256> || std::is_same_v<T, bUInt256>)
else if constexpr (is_big_int_v<T> && sizeof(T) == 32)
{
return intHash32<salt>(static_cast<UInt64>(key) ^
static_cast<UInt64>(key >> 64) ^

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@ -148,7 +148,7 @@ public:
}
template <typename T>
std::enable_if_t<is_big_int_v<T>, void> update(const T & x)
std::enable_if_t<is_big_int_v<T> && !std::has_unique_object_representations_v<T>, void> update(const T & x)
{
update(DB::BigInt<T>::serialize(x));
}
@ -213,7 +213,7 @@ std::enable_if_t<std::has_unique_object_representations_v<T>, UInt64> sipHash64(
}
template <typename T>
std::enable_if_t<(std::is_floating_point_v<T> || is_big_int_v<T>), UInt64> sipHash64(const T & x)
std::enable_if_t<(std::is_floating_point_v<T> || (is_big_int_v<T> && !std::has_unique_object_representations_v<T>)), UInt64> sipHash64(const T & x)
{
SipHash hash;
hash.update(x);

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@ -67,6 +67,11 @@ struct UInt128
bool inline operator <= (const Int128 rhs) const { return *this <= UInt128(rhs, rhs >> 64) && rhs >= 0; }
bool inline operator < (const Int128 rhs) const { return *this < UInt128(rhs, rhs >> 64) && rhs >= 0; }
bool inline operator > (const Int256 rhs) const { return (rhs < 0) || ((Int256(high) << 64) + low) > rhs; }
bool inline operator > (const UInt256 rhs) const { return ((UInt256(high) << 64) + low) > rhs; }
bool inline operator < (const Int256 rhs) const { return (rhs >= 0) && ((Int256(high) << 64) + low) < rhs; }
bool inline operator < (const UInt256 rhs) const { return ((UInt256(high) << 64) + low) < rhs; }
template <typename T> bool inline operator== (const T rhs) const { return *this == UInt128(rhs); }
template <typename T> bool inline operator!= (const T rhs) const { return *this != UInt128(rhs); }
template <typename T> bool inline operator>= (const T rhs) const { return *this >= UInt128(rhs); }

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@ -138,9 +138,9 @@ constexpr inline Int128 exp10_i128(int x)
}
inline bInt256 exp10_i256(int x)
inline wInt256 exp10_i256(int x)
{
using Int256 = bInt256;
using Int256 = wInt256;
static constexpr Int256 i10e18{1000000000000000000ll};
static const Int256 values[] = {
static_cast<Int256>(1ll),

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@ -7,46 +7,15 @@ namespace DB
{
template <typename T>
struct BigIntPayload
struct BigInt
{
static_assert(!is_big_int_v<T>);
static constexpr size_t size = 0;
};
template <> struct BigIntPayload<bUInt256> { static constexpr size_t size = 32; };
template <> struct BigIntPayload<bInt256>
{
using UnsingedType = bUInt256;
static_assert(sizeof(T) == 32);
static constexpr size_t size = 32;
};
template <typename T>
struct BigInt : BigIntPayload<T>
{
using BigIntPayload<T>::size;
static constexpr size_t lastBit()
{
return size * 8 - 1;
}
static StringRef serialize(const T & x, char * pos)
{
if constexpr (is_signed_v<T>)
{
using UnsignedT = typename BigIntPayload<T>::UnsingedType;
if (x < 0)
{
UnsignedT unsigned_x = UnsignedT{0} - static_cast<UnsignedT>(-x);
export_bits(unsigned_x, pos, 8, false);
}
else
export_bits(x, pos, 8, false);
}
else
export_bits(x, pos, 8, false);
//unalignedStore<T>(pos, x);
memcpy(pos, &x, size);
return StringRef(pos, size);
}
@ -59,24 +28,20 @@ struct BigInt : BigIntPayload<T>
static T deserialize(const char * pos)
{
if constexpr (is_signed_v<T>)
{
using UnsignedT = typename BigIntPayload<T>::UnsingedType;
UnsignedT unsigned_x;
import_bits(unsigned_x, pos, pos + size, false);
bool is_negative = bit_test(unsigned_x, lastBit());
if (is_negative)
unsigned_x = UnsignedT{0} - unsigned_x;
return static_cast<T>(unsigned_x);
//return unalignedLoad<T>(pos);
T res;
memcpy(&res, pos, size);
return res;
}
else
static std::vector<UInt64> toIntArray(const T & x)
{
T x;
import_bits(x, pos, pos + size, false);
return x;
}
std::vector<UInt64> parts(4, 0);
parts[0] = UInt64(x);
parts[1] = UInt64(x >> 64);
parts[2] = UInt64(x >> 128);
parts[4] = UInt64(x >> 192);
return parts;
}
};

View File

@ -226,25 +226,25 @@ private:
static NO_INLINE UInt8 apply(A a, B b, CompareInt scale [[maybe_unused]])
{
CompareInt x;
if constexpr (is_big_int_v<CompareInt> && IsDecimalNumber<A>)
if constexpr (IsDecimalNumber<A>)
x = a.value;
else
x = bigint_cast<CompareInt>(a);
x = a;
CompareInt y;
if constexpr (is_big_int_v<CompareInt> && IsDecimalNumber<B>)
if constexpr (IsDecimalNumber<B>)
y = b.value;
else
y = bigint_cast<CompareInt>(b);
y = b;
if constexpr (_check_overflow)
{
bool overflow = false;
if constexpr (sizeof(A) > sizeof(CompareInt))
overflow |= (A(x) != a);
overflow |= (bigint_cast<A>(x) != a);
if constexpr (sizeof(B) > sizeof(CompareInt))
overflow |= (B(y) != b);
overflow |= (bigint_cast<B>(y) != b);
if constexpr (is_unsigned_v<A>)
overflow |= (x < 0);
if constexpr (is_unsigned_v<B>)

View File

@ -58,14 +58,14 @@ using UInt8 = ::UInt8;
using UInt16 = ::UInt16;
using UInt32 = ::UInt32;
using UInt64 = ::UInt64;
using UInt256 = ::bUInt256;
using UInt256 = ::wUInt256;
using Int8 = ::Int8;
using Int16 = ::Int16;
using Int32 = ::Int32;
using Int64 = ::Int64;
using Int128 = ::Int128;
using Int256 = ::bInt256;
using Int256 = ::wInt256;
using Float32 = float;
using Float64 = double;

View File

@ -28,21 +28,13 @@ constexpr size_t min(size_t x, size_t y)
return x < y ? x : y;
}
/// @note There's no auto scale to larger big integer, only for integral ones.
/// It's cause of (U)Int64 backward compatibilty and very big performance penalties.
constexpr size_t nextSize(size_t size)
{
return min(size * 2, 8);
}
template <bool is_signed>
constexpr size_t nextSize2(size_t size)
{
// old way for built-in integers
if (size <= 8) return nextSize(size);
if constexpr (is_signed)
return size <= 32 ? 32 : 48;
else
return size <= 32 ? 16 : 48;
if (size < 8)
return size * 2;
return size;
}
template <bool is_signed, bool is_floating, size_t size>
@ -55,9 +47,8 @@ template <> struct Construct<false, false, 1> { using Type = UInt8; };
template <> struct Construct<false, false, 2> { using Type = UInt16; };
template <> struct Construct<false, false, 4> { using Type = UInt32; };
template <> struct Construct<false, false, 8> { using Type = UInt64; };
template <> struct Construct<false, false, 16> { using Type = UInt256; };
template <> struct Construct<false, false, 16> { using Type = UInt256; }; /// TODO: we cannot use our UInt128 here
template <> struct Construct<false, false, 32> { using Type = UInt256; };
template <> struct Construct<false, false, 48> { using Type = UInt256; };
template <> struct Construct<false, true, 1> { using Type = Float32; };
template <> struct Construct<false, true, 2> { using Type = Float32; };
template <> struct Construct<false, true, 4> { using Type = Float32; };
@ -67,8 +58,7 @@ template <> struct Construct<true, false, 2> { using Type = Int16; };
template <> struct Construct<true, false, 4> { using Type = Int32; };
template <> struct Construct<true, false, 8> { using Type = Int64; };
template <> struct Construct<true, false, 16> { using Type = Int128; };
template <> struct Construct<true, false, 32> { using Type = Int128; };
template <> struct Construct<true, false, 48> { using Type = Int256; };
template <> struct Construct<true, false, 32> { using Type = Int256; };
template <> struct Construct<true, true, 1> { using Type = Float32; };
template <> struct Construct<true, true, 2> { using Type = Float32; };
template <> struct Construct<true, true, 4> { using Type = Float32; };
@ -86,7 +76,7 @@ template <typename A, typename B> struct ResultOfAdditionMultiplication
using Type = typename Construct<
is_signed_v<A> || is_signed_v<B>,
std::is_floating_point_v<A> || std::is_floating_point_v<B>,
nextSize2< is_signed_v<A> || is_signed_v<B> >(max(sizeof(A), sizeof(B)))>::Type;
nextSize(max(sizeof(A), sizeof(B)))>::Type;
};
template <typename A, typename B> struct ResultOfSubtraction
@ -94,7 +84,7 @@ template <typename A, typename B> struct ResultOfSubtraction
using Type = typename Construct<
true,
std::is_floating_point_v<A> || std::is_floating_point_v<B>,
nextSize2< is_signed_v<A> || is_signed_v<B> >(max(sizeof(A), sizeof(B)))>::Type;
nextSize(max(sizeof(A), sizeof(B)))>::Type;
};
/** When dividing, you always get a floating-point number.
@ -127,7 +117,7 @@ template <typename A> struct ResultOfNegate
using Type = typename Construct<
true,
std::is_floating_point_v<A>,
is_signed_v<A> ? sizeof(A) : nextSize2<true>(sizeof(A))>::Type;
is_signed_v<A> ? sizeof(A) : nextSize(sizeof(A))>::Type;
};
template <typename A> struct ResultOfAbs

View File

@ -81,8 +81,10 @@ struct DivideIntegralImpl
/// NOTE: overflow is still possible when dividing large signed number to large unsigned number or vice-versa. But it's less harmful.
if constexpr (is_integer_v<A> && is_integer_v<B> && (is_signed_v<A> || is_signed_v<B>))
{
return checkedDivision(make_signed_t<CastA>(a),
sizeof(A) > sizeof(B) ? make_signed_t<A>(CastB(b)) : make_signed_t<CastB>(b));
using SignedCastA = make_signed_t<CastA>;
using SignedCastB = std::conditional_t<sizeof(A) <= sizeof(B), make_signed_t<CastB>, SignedCastA>;
return bigint_cast<Result>(checkedDivision(bigint_cast<SignedCastA>(a), bigint_cast<SignedCastB>(b)));
}
else
return bigint_cast<Result>(checkedDivision(CastA(a), CastB(b)));
@ -108,7 +110,7 @@ struct ModuloImpl
if constexpr (std::is_floating_point_v<ResultType>)
{
/// This computation is similar to `fmod` but the latter is not inlined and has 40 times worse performance.
return ResultType(a) - trunc(ResultType(a) / ResultType(b)) * ResultType(b);
return bigint_cast<ResultType>(a) - trunc(bigint_cast<ResultType>(a) / bigint_cast<ResultType>(b)) * bigint_cast<ResultType>(b);
}
else
{
@ -125,7 +127,7 @@ struct ModuloImpl
if constexpr (is_big_int_v<IntegerBType> && sizeof(IntegerAType) <= sizeof(IntegerBType))
return bigint_cast<Result>(bigint_cast<CastB>(int_a) % int_b);
else
return bigint_cast<Result>(int_a % int_b);
return bigint_cast<Result>(int_a % bigint_cast<CastA>(int_b));
}
else
return IntegerAType(a) % IntegerBType(b);

View File

@ -361,12 +361,8 @@ private:
return apply(a.value, b);
else if constexpr (IsDecimalNumber<U>)
return apply(a, b.value);
else if constexpr (std::is_same_v<T, UInt8>)
return apply(UInt16(a), b);
else if constexpr (std::is_same_v<U, UInt8>)
return apply(a, UInt16(b));
else
return applyNative(static_cast<NativeResultType>(a), static_cast<NativeResultType>(b));
return applyNative(bigint_cast<NativeResultType>(a), bigint_cast<NativeResultType>(b));
}
else
return applyNative(a, b);
@ -381,12 +377,8 @@ private:
return applyScaled<scale_left>(a.value, b, scale);
else if constexpr (IsDecimalNumber<U>)
return applyScaled<scale_left>(a, b.value, scale);
else if constexpr (std::is_same_v<T, UInt8>)
return applyScaled<scale_left>(UInt16(a), b, scale);
else if constexpr (std::is_same_v<U, UInt8>)
return applyScaled<scale_left>(a, UInt16(b), scale);
else
return applyNativeScaled<scale_left>(static_cast<NativeResultType>(a), static_cast<NativeResultType>(b), scale);
return applyNativeScaled<scale_left>(bigint_cast<NativeResultType>(a), bigint_cast<NativeResultType>(b), scale);
}
else
return applyNativeScaled<scale_left>(a, b, scale);
@ -401,12 +393,8 @@ private:
return applyScaledDiv(a.value, b, scale);
else if constexpr (IsDecimalNumber<U>)
return applyScaledDiv(a, b.value, scale);
else if constexpr (std::is_same_v<T, UInt8>)
return applyScaledDiv(UInt16(a), b, scale);
else if constexpr (std::is_same_v<U, UInt8>)
return applyScaledDiv(a, UInt16(b), scale);
else
return applyNativeScaledDiv(static_cast<NativeResultType>(a), static_cast<NativeResultType>(b), scale);
return applyNativeScaledDiv(bigint_cast<NativeResultType>(a), bigint_cast<NativeResultType>(b), scale);
}
else
return applyNativeScaledDiv(a, b, scale);

View File

@ -558,7 +558,7 @@ bool sliceEqualElements(const NumericArraySlice<T> & first [[maybe_unused]],
{
/// TODO: Decimal scale
if constexpr (IsDecimalNumber<T> && IsDecimalNumber<U>)
return accurate::equalsOp(typename T::NativeType(first.data[first_ind]), typename U::NativeType(second.data[second_ind]));
return accurate::equalsOp(first.data[first_ind].value, second.data[second_ind].value);
else if constexpr (IsDecimalNumber<T> || IsDecimalNumber<U>)
return false;
else
@ -588,7 +588,7 @@ bool insliceEqualElements(const NumericArraySlice<T> & first [[maybe_unused]],
size_t second_ind [[maybe_unused]])
{
if constexpr (IsDecimalNumber<T>)
return accurate::equalsOp(typename T::NativeType(first.data[first_ind]), typename T::NativeType(first.data[second_ind]));
return accurate::equalsOp(first.data[first_ind].value, first.data[second_ind].value);
else
return accurate::equalsOp(first.data[first_ind], first.data[second_ind]);
}

View File

@ -16,11 +16,10 @@ struct AbsImpl
{
if constexpr (IsDecimalNumber<A>)
return a < A(0) ? A(-a) : a;
else if constexpr (is_big_int_v<A>)
// from boost/multiprecision/number.hpp
return static_cast<ResultType>(abs(a));
else if constexpr (is_big_int_v<A> && is_signed_v<A>)
return (a < 0) ? -a : a;
else if constexpr (is_integer_v<A> && is_signed_v<A>)
return a < 0 ? static_cast<ResultType>(~a) + 1 : a;
return a < 0 ? static_cast<ResultType>(~a) + 1 : static_cast<ResultType>(a);
else if constexpr (is_integer_v<A> && is_unsigned_v<A>)
return static_cast<ResultType>(a);
else if constexpr (std::is_floating_point_v<A>)

View File

@ -18,7 +18,7 @@ struct BitRotateLeftImpl
template <typename Result = ResultType>
static inline NO_SANITIZE_UNDEFINED Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
{
if constexpr (is_big_int_v<ResultType>)
if constexpr (is_big_int_v<A> || is_big_int_v<B>)
throw Exception("Bit rotate is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
else
return (static_cast<Result>(a) << static_cast<Result>(b))

View File

@ -18,7 +18,7 @@ struct BitRotateRightImpl
template <typename Result = ResultType>
static inline NO_SANITIZE_UNDEFINED Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
{
if constexpr (is_big_int_v<ResultType>)
if constexpr (is_big_int_v<A> || is_big_int_v<B>)
throw Exception("Bit rotate is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
else
return (static_cast<Result>(a) >> static_cast<Result>(b))

View File

@ -19,9 +19,9 @@ struct BitShiftLeftImpl
static inline NO_SANITIZE_UNDEFINED Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
{
if constexpr (is_big_int_v<B>)
throw Exception("BitShiftLeftImpl is not implemented for big integers as second argument", ErrorCodes::NOT_IMPLEMENTED);
throw Exception("BitShiftLeft is not implemented for big integers as second argument", ErrorCodes::NOT_IMPLEMENTED);
else if constexpr (is_big_int_v<A>)
return static_cast<Result>(a) << bigint_cast<UInt32>(b);
return bigint_cast<Result>(a) << bigint_cast<UInt32>(b);
else
return static_cast<Result>(a) << static_cast<Result>(b);
}

View File

@ -19,9 +19,9 @@ struct BitShiftRightImpl
static inline NO_SANITIZE_UNDEFINED Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
{
if constexpr (is_big_int_v<B>)
throw Exception("BitRotate is not implemented for big integers as second argument", ErrorCodes::NOT_IMPLEMENTED);
throw Exception("BitShiftRight is not implemented for big integers as second argument", ErrorCodes::NOT_IMPLEMENTED);
else if constexpr (is_big_int_v<A>)
return static_cast<Result>(a) >> bigint_cast<UInt32>(b);
return bigint_cast<Result>(a) >> bigint_cast<UInt32>(b);
else
return static_cast<Result>(a) >> static_cast<Result>(b);
}

View File

@ -19,10 +19,8 @@ struct BitTestImpl
template <typename Result = ResultType>
NO_SANITIZE_UNDEFINED static inline Result apply(A a [[maybe_unused]], B b [[maybe_unused]])
{
if constexpr (is_big_int_v<B>)
if constexpr (is_big_int_v<A> || is_big_int_v<B>)
throw Exception("bitTest is not implemented for big integers as second argument", ErrorCodes::NOT_IMPLEMENTED);
else if constexpr (is_big_int_v<A>)
return bit_test(a, static_cast<UInt32>(b));
else
return (typename NumberTraits::ToInteger<A>::Type(a) >> typename NumberTraits::ToInteger<B>::Type(b)) & 1;
}

View File

@ -20,7 +20,7 @@ struct GCDImpl
template <typename Result = ResultType>
static inline Result apply([[maybe_unused]] A a, [[maybe_unused]] B b)
{
if constexpr (is_big_int_v<A> || is_big_int_v<B>)
if constexpr (is_big_int_v<A> || is_big_int_v<B> || is_big_int_v<Result>)
throw Exception("GCD is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
else
{

View File

@ -40,14 +40,14 @@ struct LCMImpl
static const constexpr bool allow_fixed_string = false;
template <typename Result = ResultType>
static inline std::enable_if_t<is_big_int_v<A> || is_big_int_v<B>, Result>
static inline std::enable_if_t<is_big_int_v<A> || is_big_int_v<B> || is_big_int_v<Result>, Result>
apply([[maybe_unused]] A a, [[maybe_unused]] B b)
{
throw Exception("LCM is not implemented for big integers", ErrorCodes::NOT_IMPLEMENTED);
}
template <typename Result = ResultType>
static inline std::enable_if_t<!is_big_int_v<A> && !is_big_int_v<B>, Result>
static inline std::enable_if_t<!is_big_int_v<A> && !is_big_int_v<B> && !is_big_int_v<Result>, Result>
apply([[maybe_unused]] A a, [[maybe_unused]] B b)
{
throwIfDivisionLeadsToFPE(typename NumberTraits::ToInteger<A>::Type(a), typename NumberTraits::ToInteger<B>::Type(b));

View File

@ -6,6 +6,11 @@
namespace DB
{
namespace ErrorCodes
{
extern const int NOT_IMPLEMENTED;
}
template <typename T>
inline std::enable_if_t<std::is_integral_v<T> && (sizeof(T) <= sizeof(UInt32)), T>
roundDownToPowerOfTwo(T x)
@ -48,10 +53,9 @@ roundDownToPowerOfTwo(T x)
template <typename T>
inline std::enable_if_t<is_big_int_v<T>, T>
roundDownToPowerOfTwo(T x)
roundDownToPowerOfTwo(T)
{
// extention from boost/multiprecision/number.hpp
return T(1) << msb(x);
throw Exception("roundToExp2() for big integers is not implemented", ErrorCodes::NOT_IMPLEMENTED);
}
/** For integer data types:

View File

@ -831,6 +831,7 @@ template <> inline void writeText<bool>(const bool & x, WriteBuffer & buf) { wri
inline void writeText(const char * x, WriteBuffer & buf) { writeEscapedString(x, strlen(x), buf); }
inline void writeText(const char * x, size_t size, WriteBuffer & buf) { writeEscapedString(x, size, buf); }
inline void writeText(const DayNum & x, WriteBuffer & buf) { writeDateText(LocalDate(x), buf); }
inline void writeText(const LocalDate & x, WriteBuffer & buf) { writeDateText(x, buf); }
inline void writeText(const LocalDateTime & x, WriteBuffer & buf) { writeDateTimeText(x, buf); }
inline void writeText(const UUID & x, WriteBuffer & buf) { writeUUIDText(x, buf); }

View File

@ -160,7 +160,7 @@ inline void readDecimalText(ReadBuffer & buf, T & x, uint32_t precision, uint32_
" Expected to read decimal with scale {} and precision {}";
if constexpr (is_big_int_v<typename T::NativeType>)
throw Exception(fmt::format(pattern, digits, x.value.str(), exponent, scale, precision), ErrorCodes::ARGUMENT_OUT_OF_BOUND);
throw Exception(fmt::format(pattern, digits, bigintToString(x.value), exponent, scale, precision), ErrorCodes::ARGUMENT_OUT_OF_BOUND);
else
throw Exception(fmt::format(pattern, digits, x, exponent, scale, precision), ErrorCodes::ARGUMENT_OUT_OF_BOUND);
}
@ -180,7 +180,7 @@ inline void readDecimalText(ReadBuffer & buf, T & x, uint32_t precision, uint32_
{
/// Too many digits after point. Just cut off excessive digits.
auto divisor = intExp10OfSize<typename T::NativeType>(divisor_exp);
assert(divisor > T(0)); /// This is for Clang Static Analyzer. It is not smart enough to infer it automatically.
assert(divisor > 0); /// This is for Clang Static Analyzer. It is not smart enough to infer it automatically.
x.value /= divisor;
scale = 0;
return;

View File

@ -362,7 +362,9 @@ AggregatedDataVariants::Type Aggregator::chooseAggregationMethod()
return AggregatedDataVariants::Type::key64;
if (size_of_field == 16)
return AggregatedDataVariants::Type::keys128;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16.", ErrorCodes::LOGICAL_ERROR);
if (size_of_field == 32)
return AggregatedDataVariants::Type::keys256;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16, 32.", ErrorCodes::LOGICAL_ERROR);
}
/// If all keys fits in N bits, will use hash table with all keys packed (placed contiguously) to single N-bit key.

View File

@ -221,7 +221,9 @@ HashJoin::Type HashJoin::chooseMethod(const ColumnRawPtrs & key_columns, Sizes &
return Type::key64;
if (size_of_field == 16)
return Type::keys128;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16.", ErrorCodes::LOGICAL_ERROR);
if (size_of_field == 32)
return Type::keys256;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16, 32.", ErrorCodes::LOGICAL_ERROR);
}
/// If the keys fit in N bits, we will use a hash table for N-bit-packed keys

View File

@ -110,9 +110,8 @@ typename SetVariantsTemplate<Variant>::Type SetVariantsTemplate<Variant>::choose
size_t size_of_field = nested_key_columns[0]->sizeOfValueIfFixed();
if ((size_of_field == 1) || (size_of_field == 2) || (size_of_field == 4) || (size_of_field == 8))
return Type::nullable_keys128;
else
throw Exception{"Logical error: numeric column has sizeOfField not in 1, 2, 4, 8.",
ErrorCodes::LOGICAL_ERROR};
/// Pass to more generic method
}
if (all_fixed)
@ -145,7 +144,9 @@ typename SetVariantsTemplate<Variant>::Type SetVariantsTemplate<Variant>::choose
return Type::key64;
if (size_of_field == 16)
return Type::keys128;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16.", ErrorCodes::LOGICAL_ERROR);
if (size_of_field == 32)
return Type::keys256;
throw Exception("Logical error: numeric column has sizeOfField not in 1, 2, 4, 8, 16, 32.", ErrorCodes::LOGICAL_ERROR);
}
/// If the keys fit in N bits, we will use a hash table for N-bit-packed keys

View File

@ -0,0 +1,638 @@
1 1 Int128 Int128
2 1 Int128 Int128
4 1 Int128 Int128
8 1 Int128 Int128
16 1 Int128 Int128
32 1 Int128 Int128
64 1 Int128 Int128
128 1 Int128 Int128
256 1 Int128 Int128
512 1 Int128 Int128
1024 1 Int128 Int128
2048 1 Int128 Int128
4096 1 Int128 Int128
8192 1 Int128 Int128
16384 1 Int128 Int128
32768 1 Int128 Int128
65536 1 Int128 Int128
131072 1 Int128 Int128
262144 1 Int128 Int128
524288 1 Int128 Int128
1048576 1 Int128 Int128
2097152 1 Int128 Int128
4194304 1 Int128 Int128
8388608 1 Int128 Int128
16777216 1 Int128 Int128
33554432 1 Int128 Int128
67108864 1 Int128 Int128
134217728 1 Int128 Int128
268435456 1 Int128 Int128
536870912 1 Int128 Int128
1073741824 1 Int128 Int128
2147483648 1 Int128 Int128
4294967296 1 Int128 Int128
8589934592 1 Int128 Int128
17179869184 1 Int128 Int128
34359738368 1 Int128 Int128
68719476736 1 Int128 Int128
137438953472 1 Int128 Int128
274877906944 1 Int128 Int128
549755813888 1 Int128 Int128
1099511627776 1 Int128 Int128
2199023255552 1 Int128 Int128
4398046511104 1 Int128 Int128
8796093022208 1 Int128 Int128
17592186044416 1 Int128 Int128
35184372088832 1 Int128 Int128
70368744177664 1 Int128 Int128
140737488355328 1 Int128 Int128
281474976710656 1 Int128 Int128
562949953421312 1 Int128 Int128
1125899906842624 1 Int128 Int128
2251799813685248 1 Int128 Int128
4503599627370496 1 Int128 Int128
9007199254740992 1 Int128 Int128
18014398509481984 1 Int128 Int128
36028797018963968 1 Int128 Int128
72057594037927936 1 Int128 Int128
144115188075855872 1 Int128 Int128
288230376151711744 1 Int128 Int128
576460752303423488 1 Int128 Int128
1152921504606846976 1 Int128 Int128
2305843009213693952 1 Int128 Int128
4611686018427387904 1 Int128 Int128
9223372036854775808 1 Int128 Int128
18446744073709551616 1 Int128 Int128
36893488147419103232 1 Int128 Int128
73786976294838206464 1 Int128 Int128
147573952589676412928 1 Int128 Int128
295147905179352825856 1 Int128 Int128
590295810358705651712 1 Int128 Int128
1180591620717411303424 1 Int128 Int128
2361183241434822606848 1 Int128 Int128
4722366482869645213696 1 Int128 Int128
9444732965739290427392 1 Int128 Int128
18889465931478580854784 1 Int128 Int128
37778931862957161709568 1 Int128 Int128
75557863725914323419136 1 Int128 Int128
151115727451828646838272 1 Int128 Int128
302231454903657293676544 1 Int128 Int128
604462909807314587353088 1 Int128 Int128
1208925819614629174706176 1 Int128 Int128
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View File

@ -0,0 +1,3 @@
SELECT bitShiftLeft(toInt128(1), number) x, bitShiftRight(x, number) y, toTypeName(x), toTypeName(y) FROM numbers(127) ORDER BY number;
SELECT bitShiftLeft(toInt256(1), number) x, bitShiftRight(x, number) y, toTypeName(x), toTypeName(y) FROM numbers(255) ORDER BY number;
SELECT bitShiftLeft(toUInt256(1), number) x, bitShiftRight(x, number) y, toTypeName(x), toTypeName(y) FROM numbers(256) ORDER BY number;

View File

@ -0,0 +1,24 @@
0
123
123
[1,1,2]
0
123
123
[1,1,2]
0
123
123
[1,1,2]
0
321
321
[1,1,2]
0
321
321
[1,1,2]
0
321
321
[1,1,2]

View File

@ -0,0 +1,39 @@
SELECT toUInt256(123) IN (NULL);
SELECT toUInt256(123) AS k GROUP BY k;
SELECT toUInt256(123) AS k FROM system.one INNER JOIN (SELECT toUInt256(123) AS k) t USING k;
SELECT arrayEnumerateUniq([toUInt256(123), toUInt256(456), toUInt256(123)]);
SELECT toInt256(123) IN (NULL);
SELECT toInt256(123) AS k GROUP BY k;
SELECT toInt256(123) AS k FROM system.one INNER JOIN (SELECT toInt256(123) AS k) t USING k;
SELECT arrayEnumerateUniq([toInt256(123), toInt256(456), toInt256(123)]);
-- SELECT toUInt128(123) IN (NULL);
-- SELECT toUInt128(123) AS k GROUP BY k;
-- SELECT toUInt128(123) AS k FROM system.one INNER JOIN (SELECT toUInt128(123) AS k) t USING k;
-- SELECT arrayEnumerateUniq([toUInt128(123), toUInt128(456), toUInt128(123)]);
SELECT toInt128(123) IN (NULL);
SELECT toInt128(123) AS k GROUP BY k;
SELECT toInt128(123) AS k FROM system.one INNER JOIN (SELECT toInt128(123) AS k) t USING k;
SELECT arrayEnumerateUniq([toInt128(123), toInt128(456), toInt128(123)]);
SELECT toNullable(toUInt256(321)) IN (NULL);
SELECT toNullable(toUInt256(321)) AS k GROUP BY k;
SELECT toNullable(toUInt256(321)) AS k FROM system.one INNER JOIN (SELECT toUInt256(321) AS k) t USING k;
SELECT arrayEnumerateUniq([toNullable(toUInt256(321)), toNullable(toUInt256(456)), toNullable(toUInt256(321))]);
SELECT toNullable(toInt256(321)) IN (NULL);
SELECT toNullable(toInt256(321)) AS k GROUP BY k;
SELECT toNullable(toInt256(321)) AS k FROM system.one INNER JOIN (SELECT toInt256(321) AS k) t USING k;
SELECT arrayEnumerateUniq([toNullable(toInt256(321)), toNullable(toInt256(456)), toNullable(toInt256(321))]);
-- SELECT toNullable(toUInt128(321)) IN (NULL);
-- SELECT toNullable(toUInt128(321)) AS k GROUP BY k;
-- SELECT toNullable(toUInt128(321)) AS k FROM system.one INNER JOIN (SELECT toUInt128(321) AS k) t USING k;
-- SELECT arrayEnumerateUniq([toNullable(toUInt128(321)), toNullable(toUInt128(456)), toNullable(toUInt128(321))]);
SELECT toNullable(toInt128(321)) IN (NULL);
SELECT toNullable(toInt128(321)) AS k GROUP BY k;
SELECT toNullable(toInt128(321)) AS k FROM system.one INNER JOIN (SELECT toInt128(321) AS k) t USING k;
SELECT arrayEnumerateUniq([toNullable(toInt128(321)), toNullable(toInt128(456)), toNullable(toInt128(321))]);