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rpcs3/Utilities/BEType.h

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#pragma once
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#define IS_LE_MACHINE
union u128
{
u64 _u64[2];
s64 _s64[2];
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class u64_reversed_array_2
{
u64 data[2];
public:
u64& operator [] (s32 index)
{
return data[1 - index];
}
const u64& operator [] (s32 index) const
{
return data[1 - index];
}
} u64r;
u32 _u32[4];
s32 _s32[4];
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class u32_reversed_array_4
{
u32 data[4];
public:
u32& operator [] (s32 index)
{
return data[3 - index];
}
const u32& operator [] (s32 index) const
{
return data[3 - index];
}
} u32r;
u16 _u16[8];
s16 _s16[8];
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class u16_reversed_array_8
{
u16 data[8];
public:
u16& operator [] (s32 index)
{
return data[7 - index];
}
const u16& operator [] (s32 index) const
{
return data[7 - index];
}
} u16r;
u8 _u8[16];
s8 _s8[16];
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class u8_reversed_array_16
{
u8 data[16];
public:
u8& operator [] (s32 index)
{
return data[15 - index];
}
const u8& operator [] (s32 index) const
{
return data[15 - index];
}
} u8r;
float _f[4];
double _d[2];
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__m128 vf;
__m128i vi;
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__m128d vd;
class bit_array_128
{
u64 data[2];
public:
class bit_element
{
u64& data;
const u64 mask;
public:
bit_element(u64& data, const u64 mask)
: data(data)
, mask(mask)
{
}
force_inline operator bool() const
{
return (data & mask) != 0;
}
force_inline bit_element& operator = (const bool right)
{
if (right)
{
data |= mask;
}
else
{
data &= ~mask;
}
return *this;
}
force_inline bit_element& operator = (const bit_element& right)
{
if (right)
{
data |= mask;
}
else
{
data &= ~mask;
}
return *this;
}
};
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// Index 0 returns the MSB and index 127 returns the LSB
bit_element operator [] (u32 index)
{
assert(index < 128);
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#ifdef IS_LE_MACHINE
return bit_element(data[1 - (index >> 6)], 0x8000000000000000ull >> (index & 0x3F));
#else
return bit_element(data[index >> 6], 0x8000000000000000ull >> (index & 0x3F));
#endif
}
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// Index 0 returns the MSB and index 127 returns the LSB
const bool operator [] (u32 index) const
{
assert(index < 128);
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#ifdef IS_LE_MACHINE
return (data[1 - (index >> 6)] & (0x8000000000000000ull >> (index & 0x3F))) != 0;
#else
return (data[index >> 6] & (0x8000000000000000ull >> (index & 0x3F))) != 0;
#endif
}
} _bit;
//operator u64() const { return _u64[0]; }
//operator u32() const { return _u32[0]; }
//operator u16() const { return _u16[0]; }
//operator u8() const { return _u8[0]; }
//operator bool() const { return _u64[0] != 0 || _u64[1] != 0; }
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static u128 from64(u64 _0, u64 _1 = 0)
{
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u128 ret;
ret._u64[0] = _0;
ret._u64[1] = _1;
return ret;
}
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static u128 from64r(u64 _1, u64 _0 = 0)
{
return from64(_0, _1);
}
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static u128 from32(u32 _0, u32 _1 = 0, u32 _2 = 0, u32 _3 = 0)
{
u128 ret;
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ret._u32[0] = _0;
ret._u32[1] = _1;
ret._u32[2] = _2;
ret._u32[3] = _3;
return ret;
}
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static u128 from32r(u32 _3, u32 _2 = 0, u32 _1 = 0, u32 _0 = 0)
{
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return from32(_0, _1, _2, _3);
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}
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static u128 from32p(u32 value)
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{
u128 ret;
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ret.vi = _mm_set1_epi32(static_cast<s32>(value));
return ret;
}
static u128 from16p(u16 value)
{
u128 ret;
ret.vi = _mm_set1_epi16(static_cast<s16>(value));
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return ret;
}
static u128 from8p(u8 value)
{
u128 ret;
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ret.vi = _mm_set1_epi8(static_cast<s8>(value));
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return ret;
}
static u128 fromBit(u32 bit)
{
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u128 ret = {};
ret._bit[bit] = true;
return ret;
}
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static u128 fromV(__m128i value)
{
u128 ret;
ret.vi = value;
return ret;
}
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static u128 fromF(__m128 value)
{
u128 ret;
ret.vf = value;
return ret;
}
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static u128 fromD(__m128d value)
{
u128 ret;
ret.vd = value;
return ret;
}
static force_inline u128 add8(const u128& left, const u128& right)
{
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return fromV(_mm_add_epi8(left.vi, right.vi));
}
static force_inline u128 add16(const u128& left, const u128& right)
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{
return fromV(_mm_add_epi16(left.vi, right.vi));
}
static force_inline u128 add32(const u128& left, const u128& right)
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{
return fromV(_mm_add_epi32(left.vi, right.vi));
}
static force_inline u128 addfs(const u128& left, const u128& right)
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{
return fromF(_mm_add_ps(left.vf, right.vf));
}
static force_inline u128 addfd(const u128& left, const u128& right)
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{
return fromD(_mm_add_pd(left.vd, right.vd));
}
static force_inline u128 sub8(const u128& left, const u128& right)
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{
return fromV(_mm_sub_epi8(left.vi, right.vi));
}
static force_inline u128 sub16(const u128& left, const u128& right)
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{
return fromV(_mm_sub_epi16(left.vi, right.vi));
}
static force_inline u128 sub32(const u128& left, const u128& right)
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{
return fromV(_mm_sub_epi32(left.vi, right.vi));
}
static force_inline u128 subfs(const u128& left, const u128& right)
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{
return fromF(_mm_sub_ps(left.vf, right.vf));
}
static force_inline u128 subfd(const u128& left, const u128& right)
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{
return fromD(_mm_sub_pd(left.vd, right.vd));
}
static force_inline u128 maxu8(const u128& left, const u128& right)
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{
return fromV(_mm_max_epu8(left.vi, right.vi));
}
static force_inline u128 minu8(const u128& left, const u128& right)
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{
return fromV(_mm_min_epu8(left.vi, right.vi));
}
static force_inline u128 eq8(const u128& left, const u128& right)
{
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return fromV(_mm_cmpeq_epi8(left.vi, right.vi));
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}
static force_inline u128 eq16(const u128& left, const u128& right)
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{
return fromV(_mm_cmpeq_epi16(left.vi, right.vi));
}
static force_inline u128 eq32(const u128& left, const u128& right)
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{
return fromV(_mm_cmpeq_epi32(left.vi, right.vi));
}
bool operator == (const u128& right) const
{
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return (_u64[0] == right._u64[0]) && (_u64[1] == right._u64[1]);
}
bool operator != (const u128& right) const
{
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return (_u64[0] != right._u64[0]) || (_u64[1] != right._u64[1]);
}
force_inline u128 operator | (const u128& right) const
{
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return fromV(_mm_or_si128(vi, right.vi));
}
force_inline u128 operator & (const u128& right) const
{
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return fromV(_mm_and_si128(vi, right.vi));
}
force_inline u128 operator ^ (const u128& right) const
{
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return fromV(_mm_xor_si128(vi, right.vi));
}
u128 operator ~ () const
{
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return from64(~_u64[0], ~_u64[1]);
}
force_inline bool is_any_1() const // check if any bit is 1
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{
return _u64[0] || _u64[1];
}
force_inline bool is_any_0() const // check if any bit is 0
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{
return ~_u64[0] || ~_u64[1];
}
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// result = (~left) & (right)
static force_inline u128 andnot(const u128& left, const u128& right)
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{
return fromV(_mm_andnot_si128(left.vi, right.vi));
}
void clear()
{
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_u64[1] = _u64[0] = 0;
}
std::string to_hex() const;
std::string to_xyzw() const;
static force_inline u128 byteswap(const u128 val)
{
u128 ret;
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ret._u64[0] = _byteswap_uint64(val._u64[1]);
ret._u64[1] = _byteswap_uint64(val._u64[0]);
return ret;
}
};
static_assert(__alignof(u128) == 16 && sizeof(u128) == 16, "Wrong u128 size or alignment");
static force_inline u128 sync_val_compare_and_swap(volatile u128* dest, u128 comp, u128 exch)
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{
#if !defined(_MSC_VER)
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auto res = __sync_val_compare_and_swap((volatile __int128_t*)dest, (__int128_t&)comp, (__int128_t&)exch);
return (u128&)res;
#else
_InterlockedCompareExchange128((volatile long long*)dest, exch._u64[1], exch._u64[0], (long long*)&comp);
return comp;
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#endif
}
static force_inline bool sync_bool_compare_and_swap(volatile u128* dest, u128 comp, u128 exch)
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{
#if !defined(_MSC_VER)
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return __sync_bool_compare_and_swap((volatile __int128_t*)dest, (__int128_t&)comp, (__int128_t&)exch);
#else
return _InterlockedCompareExchange128((volatile long long*)dest, exch._u64[1], exch._u64[0], (long long*)&comp) != 0;
#endif
}
static force_inline u128 sync_lock_test_and_set(volatile u128* dest, u128 value)
{
while (true)
{
const u128 old = *(u128*)dest;
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if (sync_bool_compare_and_swap(dest, old, value)) return old;
}
}
static force_inline u128 sync_fetch_and_or(volatile u128* dest, u128 value)
{
while (true)
{
const u128 old = *(u128*)dest;
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if (sync_bool_compare_and_swap(dest, old, value | old)) return old;
}
}
static force_inline u128 sync_fetch_and_and(volatile u128* dest, u128 value)
{
while (true)
{
const u128 old = *(u128*)dest;
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if (sync_bool_compare_and_swap(dest, old, value & old)) return old;
}
}
static force_inline u128 sync_fetch_and_xor(volatile u128* dest, u128 value)
{
while (true)
{
const u128 old = *(u128*)dest;
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if (sync_bool_compare_and_swap(dest, old, value ^ old)) return old;
}
}
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#define re16(val) _byteswap_ushort(val)
#define re32(val) _byteswap_ulong(val)
#define re64(val) _byteswap_uint64(val)
#define re128(val) u128::byteswap(val)
template<typename T, int size = sizeof(T)> struct se_t;
template<typename T> struct se_t<T, 1>
{
static force_inline u8 to_be(const T& src)
{
return (u8&)src;
}
static force_inline T from_be(const u8 src)
{
return (T&)src;
}
};
template<typename T> struct se_t<T, 2>
{
static force_inline u16 to_be(const T& src)
{
return _byteswap_ushort((u16&)src);
}
static force_inline T from_be(const u16 src)
{
const u16 res = _byteswap_ushort(src);
return (T&)res;
}
};
template<typename T> struct se_t<T, 4>
{
static force_inline u32 to_be(const T& src)
{
return _byteswap_ulong((u32&)src);
}
static force_inline T from_be(const u32 src)
{
const u32 res = _byteswap_ulong(src);
return (T&)res;
}
};
template<typename T> struct se_t<T, 8>
{
static force_inline u64 to_be(const T& src)
{
return _byteswap_uint64((u64&)src);
}
static force_inline T from_be(const u64 src)
{
const u64 res = _byteswap_uint64(src);
return (T&)res;
}
};
template<typename T> struct se_t<T, 16>
{
static force_inline u128 to_be(const T& src)
{
return u128::byteswap((u128&)src);
}
static force_inline T from_be(const u128& src)
{
const u128 res = u128::byteswap(src);
return (T&)res;
}
};
template<typename T, T _value, size_t size = sizeof(T)> struct const_se_t;
template<u8 _value> struct const_se_t<u8, _value, 1>
{
static const u8 value = _value;
};
template<u16 _value> struct const_se_t<u16, _value, 2>
{
static const u16 value = ((_value >> 8) & 0xff) | ((_value << 8) & 0xff00);
};
template<u32 _value> struct const_se_t<u32, _value, 4>
{
static const u32 value =
((_value >> 24) & 0x000000ff) |
((_value >> 8) & 0x0000ff00) |
((_value << 8) & 0x00ff0000) |
((_value << 24) & 0xff000000);
};
template<u64 _value> struct const_se_t<u64, _value, 8>
{
static const u64 value =
((_value >> 56) & 0x00000000000000ff) |
((_value >> 40) & 0x000000000000ff00) |
((_value >> 24) & 0x0000000000ff0000) |
((_value >> 8) & 0x00000000ff000000) |
((_value << 8) & 0x000000ff00000000) |
((_value << 24) & 0x0000ff0000000000) |
((_value << 40) & 0x00ff000000000000) |
((_value << 56) & 0xff00000000000000);
};
template<typename T, size_t size = sizeof(T)>
struct be_storage_t
{
static_assert(!size, "Bad be_storage_t type");
};
template<typename T>
struct be_storage_t<T, 1>
{
typedef u8 type;
};
template<typename T>
struct be_storage_t<T, 2>
{
typedef u16 type;
};
template<typename T>
struct be_storage_t<T, 4>
{
typedef u32 type;
};
template<typename T>
struct be_storage_t<T, 8>
{
typedef u64 type;
};
template<typename T>
struct be_storage_t<T, 16>
{
typedef u128 type;
};
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template<typename T, typename T2 = T>
class be_t
{
public:
typedef typename std::remove_cv<T>::type type;
typedef typename be_storage_t<T2>::type stype;
private:
stype m_data;
template<typename Tto, typename Tfrom, int mode>
struct _convert
{
static force_inline be_t<Tto>& func(Tfrom& be_value)
{
Tto res = be_value;
return (be_t<Tto>&)res;
}
};
template<typename Tto, typename Tfrom>
struct _convert<Tto, Tfrom, 1>
{
static force_inline be_t<Tto>& func(Tfrom& be_value)
{
Tto res = se_t<Tto, sizeof(Tto)>::func(se_t<Tfrom, sizeof(Tfrom)>::func(be_value));
return (be_t<Tto>&)res;
}
};
template<typename Tto, typename Tfrom>
struct _convert<Tto, Tfrom, 2>
{
static force_inline be_t<Tto>& func(Tfrom& be_value)
{
Tto res = be_value >> ((sizeof(Tfrom)-sizeof(Tto)) * 8);
return (be_t<Tto>&)res;
}
};
const stype& ToBE() const
{
return m_data;
}
type ToLE() const
{
return se_t<type, sizeof(T2)>::from_be(m_data);
}
void FromBE(const stype& value)
{
m_data = value;
}
void FromLE(const type& value)
{
m_data = se_t<type, sizeof(T2)>::to_be(value);
}
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public:
static be_t MakeFromLE(const type& value)
{
stype data = se_t<type, sizeof(T2)>::to_be(value);
return (be_t&)data;
}
static be_t MakeFromBE(const stype& value)
{
return (be_t&)value;
}
//make be_t from current machine byte ordering
static be_t make(const type& value)
{
#ifdef IS_LE_MACHINE
return MakeFromLE(value);
#else
return MakeFromBE(value);
#endif
}
//get value in current machine byte ordering
force_inline type value() const
{
#ifdef IS_LE_MACHINE
return ToLE();
#else
return ToBE();
#endif
}
const stype& data() const
{
return ToBE();
}
be_t& operator = (const be_t& value) = default;
be_t& operator = (const type& value)
{
m_data = se_t<type, sizeof(T2)>::to_be(value);
return *this;
}
operator type() const
{
return value();
}
template<typename T1>
operator const be_t<T1>() const
{
return be_t<T1>::make(value());
//return _convert<T1, T, ((sizeof(T1) > sizeof(T)) ? 1 : (sizeof(T1) < sizeof(T) ? 2 : 0))>::func(m_data);
}
template<typename T1> be_t& operator += (T1 right) { return *this = T(*this) + right; }
template<typename T1> be_t& operator -= (T1 right) { return *this = T(*this) - right; }
template<typename T1> be_t& operator *= (T1 right) { return *this = T(*this) * right; }
template<typename T1> be_t& operator /= (T1 right) { return *this = T(*this) / right; }
template<typename T1> be_t& operator %= (T1 right) { return *this = T(*this) % right; }
template<typename T1> be_t& operator &= (T1 right) { return *this = T(*this) & right; }
template<typename T1> be_t& operator |= (T1 right) { return *this = T(*this) | right; }
template<typename T1> be_t& operator ^= (T1 right) { return *this = T(*this) ^ right; }
template<typename T1> be_t& operator <<= (T1 right) { return *this = T(*this) << right; }
template<typename T1> be_t& operator >>= (T1 right) { return *this = T(*this) >> right; }
template<typename T1> be_t& operator += (const be_t<T1>& right) { return *this = ToLE() + right.ToLE(); }
template<typename T1> be_t& operator -= (const be_t<T1>& right) { return *this = ToLE() - right.ToLE(); }
template<typename T1> be_t& operator *= (const be_t<T1>& right) { return *this = ToLE() * right.ToLE(); }
template<typename T1> be_t& operator /= (const be_t<T1>& right) { return *this = ToLE() / right.ToLE(); }
template<typename T1> be_t& operator %= (const be_t<T1>& right) { return *this = ToLE() % right.ToLE(); }
template<typename T1> be_t& operator &= (const be_t<T1>& right) { return *this = ToBE() & right.ToBE(); }
template<typename T1> be_t& operator |= (const be_t<T1>& right) { return *this = ToBE() | right.ToBE(); }
template<typename T1> be_t& operator ^= (const be_t<T1>& right) { return *this = ToBE() ^ right.ToBE(); }
template<typename T1> be_t operator & (const be_t<T1>& right) const { be_t<T> res; res.FromBE(ToBE() & right.ToBE()); return res; }
template<typename T1> be_t operator | (const be_t<T1>& right) const { be_t<T> res; res.FromBE(ToBE() | right.ToBE()); return res; }
template<typename T1> be_t operator ^ (const be_t<T1>& right) const { be_t<T> res; res.FromBE(ToBE() ^ right.ToBE()); return res; }
template<typename T1> bool operator == (T1 right) const { return (T1)ToLE() == right; }
template<typename T1> bool operator != (T1 right) const { return !(*this == right); }
template<typename T1> bool operator > (T1 right) const { return (T1)ToLE() > right; }
template<typename T1> bool operator < (T1 right) const { return (T1)ToLE() < right; }
template<typename T1> bool operator >= (T1 right) const { return (T1)ToLE() >= right; }
template<typename T1> bool operator <= (T1 right) const { return (T1)ToLE() <= right; }
template<typename T1> bool operator == (const be_t<T1>& right) const { return ToBE() == right.ToBE(); }
template<typename T1> bool operator != (const be_t<T1>& right) const { return !(*this == right); }
template<typename T1> bool operator > (const be_t<T1>& right) const { return (T1)ToLE() > right.ToLE(); }
template<typename T1> bool operator < (const be_t<T1>& right) const { return (T1)ToLE() < right.ToLE(); }
template<typename T1> bool operator >= (const be_t<T1>& right) const { return (T1)ToLE() >= right.ToLE(); }
template<typename T1> bool operator <= (const be_t<T1>& right) const { return (T1)ToLE() <= right.ToLE(); }
be_t operator++ (int) { be_t res = *this; *this += 1; return res; }
be_t operator-- (int) { be_t res = *this; *this -= 1; return res; }
be_t& operator++ () { *this += 1; return *this; }
be_t& operator-- () { *this -= 1; return *this; }
};
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template<typename T, typename T2 = T>
struct is_be_t : public std::integral_constant<bool, false> {};
template<typename T, typename T2>
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struct is_be_t<be_t<T, T2>, T2> : public std::integral_constant<bool, true> {};
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template<typename T, typename T2 = T>
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struct remove_be_t
{
typedef T type;
};
template<typename T, typename T2>
struct remove_be_t<be_t<T, T2>>
{
typedef T type;
};
template<typename T, typename T2 = T>
class to_be_t
{
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template<typename TT, typename TT2, bool is_need_swap>
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struct _be_type_selector
{
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typedef TT type;
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};
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template<typename TT, typename TT2>
struct _be_type_selector<TT, TT2, true>
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{
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typedef be_t<TT, TT2> type;
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};
public:
//true if need swap endianes for be
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static const bool value = std::is_arithmetic<T>::value || std::is_enum<T>::value;
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//be_t<T, size> if need swap endianes, T otherwise
typedef typename _be_type_selector< T, T2, value >::type type;
typedef typename _be_type_selector< T, T2, !is_be_t<T, T2>::value >::type forced_type;
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};
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template<typename T, typename T2>
class to_be_t<T, const T2>
{
public:
static const bool value = to_be_t<T, T2>::value;
typedef const typename to_be_t<T, T2>::type type;
typedef const typename to_be_t<T, T2>::forced_type forced_type;
};
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template<typename T>
class to_be_t<T, void>
{
public:
static const bool value = false;
typedef void type;
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typedef void forced_type;
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};
template<typename T>
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class to_be_t<T, u8>
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{
public:
static const bool value = false;
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typedef u8 type;
typedef u8 forced_type;
};
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template<typename T>
class to_be_t<T, s8>
{
public:
static const bool value = false;
typedef s8 type;
typedef s8 forced_type;
};
template<typename T>
class to_be_t<T, char>
{
public:
static const bool value = false;
typedef char type;
typedef char forced_type;
};
template<typename T>
class to_be_t<T, bool>
{
public:
static const bool value = false;
typedef bool type;
typedef bool forced_type;
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};
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template<typename T, typename T2 = T>
struct invert_be_t
{
typedef typename to_be_t<T, T2>::type type;
};
template<typename T, typename T2>
struct invert_be_t<be_t<T, T2>>
{
typedef T type;
};
template<typename T, typename T1, T1 value> struct _se : public const_se_t<T, value> {};
template<typename T, typename T1, T1 value> struct _se<be_t<T>, T1, value> : public const_se_t<T, value> {};
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//#define se(t, x) _se<decltype(t), decltype(x), x>::value
#define se16(x) _se<u16, decltype(x), x>::value
#define se32(x) _se<u32, decltype(x), x>::value
#define se64(x) _se<u64, decltype(x), x>::value
template<typename Tto, typename Tfrom>
struct convert_le_be_t
{
static Tto func(Tfrom value)
{
return (Tto)value;
}
};
template<typename Tt, typename Tt1, typename Tfrom>
struct convert_le_be_t<be_t<Tt, Tt1>, Tfrom>
{
static be_t<Tt, Tt1> func(Tfrom value)
{
return be_t<Tt, Tt1>::make(value);
}
};
template<typename Tt, typename Tt1, typename Tf, typename Tf1>
struct convert_le_be_t<be_t<Tt, Tt1>, be_t<Tf, Tf1>>
{
static be_t<Tt, Tt1> func(be_t<Tf, Tf1> value)
{
return value;
}
};
template<typename Tto, typename Tf, typename Tf1>
struct convert_le_be_t<Tto, be_t<Tf, Tf1>>
{
static Tto func(be_t<Tf, Tf1> value)
{
return value.value();
}
};
template<typename Tto, typename Tfrom>
force_inline Tto convert_le_be(Tfrom value)
{
return convert_le_be_t<Tto, Tfrom>::func(value);
}
template<typename Tto, typename Tfrom>
force_inline void convert_le_be(Tto& dst, Tfrom src)
{
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dst = convert_le_be_t<Tto, Tfrom>::func(src);
}
template<typename T> using le_t = T;
template<typename T> struct to_le_t { using type = T; };