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rpcs3/Utilities/BitField.h

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#pragma once
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#include "types.h"
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template<typename T, uint N>
struct bf_base
{
using type = T;
using vtype = simple_t<type>;
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using utype = typename std::make_unsigned<vtype>::type;
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// Datatype bitsize
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static constexpr uint bitmax = sizeof(T) * 8; static_assert(N - 1 < bitmax, "bf_base<> error: N out of bounds");
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// Field bitsize
static constexpr uint bitsize = N;
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// Value mask
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static constexpr utype vmask = static_cast<utype>(~utype{} >> (bitmax - bitsize));
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// All ones mask
static constexpr utype mask1 = static_cast<utype>(~utype{});
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protected:
type m_data;
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};
// Bitfield accessor (N bits from I position, 0 is LSB)
template<typename T, uint I, uint N>
struct bf_t : bf_base<T, N>
{
using type = typename bf_t::type;
using vtype = typename bf_t::vtype;
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using utype = typename bf_t::utype;
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// Field offset
static constexpr uint bitpos = I; static_assert(bitpos + N <= bf_t::bitmax, "bf_t<> error: I out of bounds");
// Get bitmask of size N, at I pos
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static constexpr utype data_mask()
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{
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return static_cast<utype>(static_cast<utype>(bf_t::mask1 >> (bf_t::bitmax - bf_t::bitsize)) << bitpos);
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}
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// Bitfield extraction helper
template<typename T2, typename = void>
struct extract_impl
{
static_assert(!sizeof(T2), "bf_t<> error: Invalid type");
};
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template<typename T2>
struct extract_impl<T2, std::enable_if_t<std::is_unsigned<T2>::value>>
{
// Load unsigned value
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static constexpr T2 extract(const T& data)
{
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return static_cast<T2>((static_cast<utype>(data) >> bitpos) & bf_t::vmask);
}
};
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template<typename T2>
struct extract_impl<T2, std::enable_if_t<std::is_signed<T2>::value>>
{
// Load signed value (sign-extended)
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static constexpr T2 extract(const T& data)
{
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return static_cast<T2>(static_cast<vtype>(static_cast<utype>(data) << (bf_t::bitmax - bitpos - N)) >> (bf_t::bitmax - N));
}
};
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// Bitfield extraction
static constexpr vtype extract(const T& data)
{
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return extract_impl<vtype>::extract(data);
}
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// Bitfield insertion
static constexpr vtype insert(vtype value)
{
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return static_cast<vtype>((value & bf_t::vmask) << bitpos);
}
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// Load bitfield value
constexpr operator vtype() const
{
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return extract(this->m_data);
}
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// Load raw data with mask applied
constexpr T unshifted() const
{
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return static_cast<T>(this->m_data & data_mask());
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}
// Optimized bool conversion (must be removed if inappropriate)
explicit constexpr operator bool() const
{
return unshifted() != 0;
}
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// Store bitfield value
bf_t& operator =(vtype value)
{
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this->m_data = static_cast<vtype>((this->m_data & ~data_mask()) | insert(value));
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return *this;
}
vtype operator ++(int)
{
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utype result = *this;
*this = static_cast<vtype>(result + 1);
return result;
}
bf_t& operator ++()
{
return *this = *this + 1;
}
vtype operator --(int)
{
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utype result = *this;
*this = static_cast<vtype>(result - 1);
return result;
}
bf_t& operator --()
{
return *this = *this - 1;
}
bf_t& operator +=(vtype right)
{
return *this = *this + right;
}
bf_t& operator -=(vtype right)
{
return *this = *this - right;
}
bf_t& operator *=(vtype right)
{
return *this = *this * right;
}
bf_t& operator &=(vtype right)
{
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this->m_data &= static_cast<vtype>((static_cast<utype>(right) & bf_t::vmask) << bitpos);
return *this;
}
bf_t& operator |=(vtype right)
{
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this->m_data |= static_cast<vtype>((static_cast<utype>(right) & bf_t::vmask) << bitpos);
return *this;
}
bf_t& operator ^=(vtype right)
{
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this->m_data ^= static_cast<vtype>((static_cast<utype>(right) & bf_t::vmask) << bitpos);
return *this;
}
};
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// Field pack (concatenated from left to right)
template<typename F = void, typename... Fields>
struct cf_t : bf_base<typename F::type, F::bitsize + cf_t<Fields...>::bitsize>
{
using type = typename cf_t::type;
using vtype = typename cf_t::vtype;
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using utype = typename cf_t::utype;
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// Get disjunction of all "data" masks of concatenated values
static constexpr vtype data_mask()
{
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return static_cast<vtype>(F::data_mask() | cf_t<Fields...>::data_mask());
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}
// Extract all bitfields and concatenate
static constexpr vtype extract(const type& data)
{
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return static_cast<vtype>(static_cast<utype>(F::extract(data)) << cf_t<Fields...>::bitsize | cf_t<Fields...>::extract(data));
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}
// Split bitfields and insert them
static constexpr vtype insert(vtype value)
{
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return static_cast<vtype>(F::insert(value >> cf_t<Fields...>::bitsize) | cf_t<Fields...>::insert(value));
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}
// Load value
constexpr operator vtype() const
{
return extract(this->m_data);
}
// Store value
cf_t& operator =(vtype value)
{
this->m_data = (this->m_data & ~data_mask()) | insert(value);
return *this;
}
};
// Empty field pack (recursion terminator)
template<>
struct cf_t<void>
{
static constexpr uint bitsize = 0;
static constexpr uint data_mask()
{
return 0;
}
template<typename T>
static constexpr auto extract(const T& data) -> decltype(+T())
{
return 0;
}
template<typename T>
static constexpr T insert(T value)
{
return 0;
}
};
// Fixed field (provides constant values in field pack)
template<typename T, T V, uint N>
struct ff_t : bf_base<T, N>
{
using type = typename ff_t::type;
using vtype = typename ff_t::vtype;
// Return constant value
static constexpr vtype extract(const type& data)
{
static_assert((V & ff_t::vmask) == V, "ff_t<> error: V out of bounds");
return V;
}
// Get value
operator vtype() const
{
return V;
}
};
template<typename T, uint I, uint N>
struct fmt_unveil<bf_t<T, I, N>, void>
{
using type = typename fmt_unveil<simple_t<T>>::type;
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static inline auto get(const bf_t<T, I, N>& bf)
{
return fmt_unveil<type>::get(bf);
}
};
template<typename F, typename... Fields>
struct fmt_unveil<cf_t<F, Fields...>, void>
{
using type = typename fmt_unveil<simple_t<typename F::type>>::type;
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static inline auto get(const cf_t<F, Fields...>& cf)
{
return fmt_unveil<type>::get(cf);
}
};
template<typename T, T V, uint N>
struct fmt_unveil<ff_t<T, V, N>, void>
{
using type = typename fmt_unveil<simple_t<T>>::type;
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static inline auto get(const ff_t<T, V, N>& ff)
{
return fmt_unveil<type>::get(ff);
}
};