ClickHouse/dbms/include/DB/Functions/AccurateComparison.h

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#pragma once
#include <limits>
#include <DB/Core/Types.h>
/** Preceptually-correct number comparisons.
* Example: Int8(-1) != UInt8(255)
*/
namespace accurate
{
using DB::UInt64;
/** Cases:
1) Safe conversion (in case of default C++ operators)
a) int vs any int
b) uint vs any uint
c) float vs any float
2) int vs uint
a) sizeof(int) <= sizeof(uint). Accurate comparison with MAX_INT tresholds
b) sizeof(int) > sizeof(uint). Casting to int
3) integral_type vs floating_type
a) sizeof(integral_type) <= 4. Comparison via casting arguments to Float64
b) sizeof(integral_type) == 8. Accurate comparison. Consider 3 sets of intervals:
1) interval between adjacent floats less or equal 1
2) interval between adjacent floats greater then 2
3) float is outside [MIN_INT64; MAX_INT64]
*/
// Case 1. Is pair of floats or pair of ints or pair of uints
template <typename A, typename B>
using is_safe_convervsion = std::integral_constant<bool, (std::is_floating_point<A>::value && std::is_floating_point<B>::value)
|| (std::is_integral<A>::value && std::is_integral<B>::value && !(std::is_signed<A>::value ^ std::is_signed<B>::value))>;
template <typename A, typename B>
using bool_if_safe_convervsion = std::enable_if_t<is_safe_convervsion<A, B>::value, bool>;
template <typename A, typename B>
using bool_if_not_safe_convervsion = std::enable_if_t<!is_safe_convervsion<A, B>::value, bool>;
/// Case 2. Are params IntXX and UIntYY ?
template <typename TInt, typename TUInt>
using is_any_int_vs_uint = std::integral_constant<bool,
std::is_integral<TInt>::value && std::is_integral<TUInt>::value &&
std::is_signed<TInt>::value && std::is_unsigned<TUInt>::value>;
// Case 2a. Are params IntXX and UIntYY and sizeof(IntXX) >= sizeof(UIntYY) (in such case will use accurate compare)
template <typename TInt, typename TUInt>
using is_le_int_vs_uint_t = std::integral_constant<bool, is_any_int_vs_uint<TInt, TUInt>::value && (sizeof(TInt) <= sizeof(TUInt))>;
template <typename TInt, typename TUInt>
using bool_if_le_int_vs_uint_t = std::enable_if_t<is_le_int_vs_uint_t<TInt, TUInt>::value, bool>;
template <typename TInt, typename TUInt>
inline bool_if_le_int_vs_uint_t<TInt, TUInt> greaterOpTmpl(TInt a, TUInt b)
{
return static_cast<TUInt>(a) > b && a >= 0 && b <= static_cast<TUInt>(std::numeric_limits<TInt>::max());
}
template <typename TUInt, typename TInt>
inline bool_if_le_int_vs_uint_t<TInt, TUInt> greaterOpTmpl(TUInt a, TInt b)
{
return a > static_cast<TUInt>(b) || b < 0 || a > static_cast<TUInt>(std::numeric_limits<TInt>::max());
}
template <typename TInt, typename TUInt>
inline bool_if_le_int_vs_uint_t<TInt, TUInt> equalsOpTmpl(TInt a, TUInt b)
{
return static_cast<TUInt>(a) == b && a >= 0 && b <= static_cast<TUInt>(std::numeric_limits<TInt>::max());
}
template <typename TUInt, typename TInt>
inline bool_if_le_int_vs_uint_t<TInt, TUInt> equalsOpTmpl(TUInt a, TInt b)
{
return a == static_cast<TUInt>(b) && b >= 0 && a <= static_cast<TUInt>(std::numeric_limits<TInt>::max());
}
// Case 2b. Are params IntXX and UIntYY and sizeof(IntXX) > sizeof(UIntYY) (in such case will cast UIntYY to IntXX and compare)
template <typename TInt, typename TUInt>
using is_gt_int_vs_uint = std::integral_constant<bool, is_any_int_vs_uint<TInt, TUInt>::value && (sizeof(TInt) > sizeof(TUInt))>;
template <typename TInt, typename TUInt>
using bool_if_gt_int_vs_uint = std::enable_if_t<is_gt_int_vs_uint<TInt, TUInt>::value, bool>;
template <typename TInt, typename TUInt>
inline bool_if_gt_int_vs_uint<TInt, TUInt> greaterOpTmpl(TInt a, TUInt b)
{
return static_cast<TInt>(a) > static_cast<TInt>(b);
}
template <typename TInt, typename TUInt>
inline bool_if_gt_int_vs_uint<TInt, TUInt> greaterOpTmpl(TUInt a, TInt b)
{
return static_cast<TInt>(a) > static_cast<TInt>(b);
}
template <typename TInt, typename TUInt>
inline bool_if_gt_int_vs_uint<TInt, TUInt> equalsOpTmpl(TInt a, TUInt b)
{
return static_cast<TInt>(a) == static_cast<TInt>(b);
}
template <typename TInt, typename TUInt>
inline bool_if_gt_int_vs_uint<TInt, TUInt> equalsOpTmpl(TUInt a, TInt b)
{
return static_cast<TInt>(a) == static_cast<TInt>(b);
}
// Case 3a. Comparison via conversion to double.
template <typename TAInt, typename TAFloat>
using bool_if_double_can_be_used = std::enable_if_t<
std::is_integral<TAInt>::value && (sizeof(TAInt) <= 4) && std::is_floating_point<TAFloat>::value,
bool>;
template <typename TAInt, typename TAFloat>
inline bool_if_double_can_be_used<TAInt, TAFloat> greaterOpTmpl(TAInt a, TAFloat b)
{
return static_cast<double>(a) > static_cast<double>(b);
}
template <typename TAInt, typename TAFloat>
inline bool_if_double_can_be_used<TAInt, TAFloat> greaterOpTmpl(TAFloat a, TAInt b)
{
return static_cast<double>(a) > static_cast<double>(b);
}
template <typename TAInt, typename TAFloat>
inline bool_if_double_can_be_used<TAInt, TAFloat> equalsOpTmpl(TAInt a, TAFloat b)
{
return static_cast<double>(a) == static_cast<double>(b);
}
template <typename TAInt, typename TAFloat>
inline bool_if_double_can_be_used<TAInt, TAFloat> equalsOpTmpl(TAFloat a, TAInt b)
{
return static_cast<double>(a) == static_cast<double>(b);
}
/* Final realiztions */
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> greaterOp(A a, B b)
{
return greaterOpTmpl(a, b);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> greaterOp(A a, B b)
{
return a > b;
}
// Case 3b. 64-bit integers vs floats comparison.
2017-01-11 15:31:54 +00:00
// See hint at https://github.com/JuliaLang/julia/issues/257 (but it doesn't work properly for -2**63)
constexpr DB::Int64 MAX_INT64_WITH_EXACT_FLOAT64_REPR = 9007199254740992LL; // 2^53
template<>
inline bool greaterOp<DB::Float64, DB::Int64>(DB::Float64 f, DB::Int64 i)
{
if (-MAX_INT64_WITH_EXACT_FLOAT64_REPR <= i && i <= MAX_INT64_WITH_EXACT_FLOAT64_REPR)
return f > static_cast<DB::Float64>(i);
return (f >= static_cast<DB::Float64>(std::numeric_limits<DB::Int64>::max())) // rhs is 2**63 (not 2^63 - 1)
|| (f > static_cast<DB::Float64>(std::numeric_limits<DB::Int64>::min()) && static_cast<DB::Int64>(f) > i);
}
template<>
inline bool greaterOp<DB::Int64, DB::Float64>(DB::Int64 i, DB::Float64 f)
{
if (-MAX_INT64_WITH_EXACT_FLOAT64_REPR <= i && i <= MAX_INT64_WITH_EXACT_FLOAT64_REPR)
return f < static_cast<DB::Float64>(i);
return (f < static_cast<DB::Float64>(std::numeric_limits<DB::Int64>::min()))
|| (f < static_cast<DB::Float64>(std::numeric_limits<DB::Int64>::max()) && i > static_cast<DB::Int64>(f));
}
template<>
inline bool greaterOp<DB::Float64, DB::UInt64>(DB::Float64 f, DB::UInt64 u)
{
if (u <= static_cast<DB::UInt64>(MAX_INT64_WITH_EXACT_FLOAT64_REPR))
return f > static_cast<DB::Float64>(u);
return (f >= static_cast<DB::Float64>(std::numeric_limits<DB::UInt64>::max()))
|| (f >= 0 && static_cast<DB::UInt64>(f) > u);
}
template<>
inline bool greaterOp<DB::UInt64, DB::Float64>(DB::UInt64 u, DB::Float64 f)
{
if (u <= static_cast<DB::UInt64>(MAX_INT64_WITH_EXACT_FLOAT64_REPR))
return static_cast<DB::Float64>(u) > f;
return (f < 0)
|| (f < static_cast<DB::Float64>(std::numeric_limits<DB::UInt64>::max()) && u > static_cast<UInt64>(f));
}
// Case 3b for float32
template<>
inline bool greaterOp<DB::Float32, DB::Int64>(DB::Float32 f, DB::Int64 i)
{
return greaterOp(static_cast<DB::Float64>(f), i);
}
template<>
inline bool greaterOp<DB::Int64, DB::Float32>(DB::Int64 i, DB::Float32 f)
{
return greaterOp(i, static_cast<DB::Float64>(f));
}
template<>
inline bool greaterOp<DB::Float32, DB::UInt64>(DB::Float32 f, DB::UInt64 u)
{
return greaterOp(static_cast<DB::Float64>(f), u);
}
template<>
inline bool greaterOp<DB::UInt64, DB::Float32>(DB::UInt64 u, DB::Float32 f)
{
return greaterOp(u, static_cast<DB::Float64>(f));
}
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> equalsOp(A a, B b)
{
return equalsOpTmpl(a, b);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> equalsOp(A a, B b)
{
return a == b;
}
template<>
inline bool equalsOp<DB::Float64, DB::UInt64>(DB::Float64 f, DB::UInt64 u)
{
return static_cast<DB::UInt64>(f) == u && f == static_cast<DB::Float64>(u);
}
template<>
inline bool equalsOp<DB::UInt64, DB::Float64>(DB::UInt64 u, DB::Float64 f)
{
return u == static_cast<DB::UInt64>(f) && static_cast<DB::Float64>(u) == f;
}
template<>
inline bool equalsOp<DB::Float64, DB::Int64>(DB::Float64 f, DB::Int64 u)
{
return static_cast<DB::Int64>(f) == u && f == static_cast<DB::Float64>(u);
}
template<>
inline bool equalsOp<DB::Int64, DB::Float64>(DB::Int64 u, DB::Float64 f)
{
return u == static_cast<DB::Int64>(f) && static_cast<DB::Float64>(u) == f;
}
template<>
inline bool equalsOp<DB::Float32, DB::UInt64>(DB::Float32 f, DB::UInt64 u)
{
return static_cast<DB::UInt64>(f) == u && f == static_cast<DB::Float32>(u);
}
template<>
inline bool equalsOp<DB::UInt64, DB::Float32>(DB::UInt64 u, DB::Float32 f)
{
return u == static_cast<DB::UInt64>(f) && static_cast<DB::Float32>(u) == f;
}
template<>
inline bool equalsOp<DB::Float32, DB::Int64>(DB::Float32 f, DB::Int64 u)
{
return static_cast<DB::Int64>(f) == u && f == static_cast<DB::Float32>(u);
}
template<>
inline bool equalsOp<DB::Int64, DB::Float32>(DB::Int64 u, DB::Float32 f)
{
return u == static_cast<DB::Int64>(f) && static_cast<DB::Float32>(u) == f;
}
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> notEqualsOp(A a, B b)
{
return !equalsOp(a, b);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> notEqualsOp(A a, B b)
{
return a != b;
}
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> lessOp(A a, B b)
{
return greaterOp(b, a);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> lessOp(A a, B b)
{
return a < b;
}
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> lessOrEqualsOp(A a, B b)
{
return !greaterOp(a, b);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> lessOrEqualsOp(A a, B b)
{
return a <= b;
}
template <typename A, typename B>
inline bool_if_not_safe_convervsion<A, B> greaterOrEqualsOp(A a, B b)
{
return !greaterOp(b, a);
}
template <typename A, typename B>
inline bool_if_safe_convervsion<A, B> greaterOrEqualsOp(A a, B b)
{
return a >= b;
}
}