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rpcs3/Utilities/bit_set.h

398 lines
8.4 KiB
C++

#pragma once
/*
This header implements bs_t<> class for scoped enum types (enum class).
To enable bs_t<>, enum scope must contain `__bitset_enum_max` entry.
enum class flagzz : u32
{
flag1, // Bit indices start from zero
flag2,
__bitset_enum_max // It must be the last value
};
This also enables helper operators for this enum type.
Examples:
`+flagzz::flag1` - unary `+` operator convert flagzz value to bs_t<flagzz>
`flagzz::flag1 + flagzz::flag2` - bitset union
`flagzz::flag1 - flagzz::flag2` - bitset difference
Intersection (&) and symmetric difference (^) is also available.
*/
#include "util/types.hpp"
#include "util/atomic.hpp"
#include "Utilities/StrFmt.h"
template <typename T>
concept BitSetEnum = std::is_enum_v<T> && requires(T x)
{
T::__bitset_enum_max;
};
template <BitSetEnum T>
class atomic_bs_t;
// Bitset type for enum class with available bits [0, T::__bitset_enum_max)
template <BitSetEnum T>
class bs_t final
{
public:
// Underlying type
using under = std::underlying_type_t<T>;
ENABLE_BITWISE_SERIALIZATION;
private:
// Underlying value
under m_data;
friend class atomic_bs_t<T>;
// Value constructor
constexpr explicit bs_t(int, under data) noexcept
: m_data(data)
{
}
public:
static constexpr usz bitmax = sizeof(T) * 8;
static constexpr usz bitsize = static_cast<under>(T::__bitset_enum_max);
static_assert(std::is_enum_v<T>, "bs_t<> error: invalid type (must be enum)");
static_assert(bitsize <= bitmax, "bs_t<> error: invalid __bitset_enum_max");
static_assert(bitsize != bitmax || std::is_unsigned_v<under>, "bs_t<> error: invalid __bitset_enum_max (sign bit)");
// Helper function
static constexpr under shift(T value)
{
return static_cast<under>(1) << static_cast<under>(value);
}
bs_t() = default;
// Construct from a single bit
constexpr bs_t(T bit) noexcept
: m_data(shift(bit))
{
}
// Test for empty bitset
constexpr explicit operator bool() const noexcept
{
return m_data != 0;
}
// Extract underlying data
constexpr explicit operator under() const noexcept
{
return m_data;
}
// Copy
constexpr bs_t operator +() const
{
return *this;
}
constexpr bs_t& operator +=(bs_t rhs)
{
m_data |= static_cast<under>(rhs);
return *this;
}
constexpr bs_t& operator -=(bs_t rhs)
{
m_data &= ~static_cast<under>(rhs);
return *this;
}
constexpr bs_t& operator &=(bs_t rhs)
{
m_data &= static_cast<under>(rhs);
return *this;
}
constexpr bs_t& operator ^=(bs_t rhs)
{
m_data ^= static_cast<under>(rhs);
return *this;
}
friend constexpr bs_t operator +(bs_t lhs, bs_t rhs)
{
return bs_t(0, lhs.m_data | rhs.m_data);
}
friend constexpr bs_t operator -(bs_t lhs, bs_t rhs)
{
return bs_t(0, lhs.m_data & ~rhs.m_data);
}
friend constexpr bs_t operator &(bs_t lhs, bs_t rhs)
{
return bs_t(0, lhs.m_data & rhs.m_data);
}
friend constexpr bs_t operator ^(bs_t lhs, bs_t rhs)
{
return bs_t(0, lhs.m_data ^ rhs.m_data);
}
constexpr bool operator ==(bs_t rhs) const noexcept
{
return m_data == rhs.m_data;
}
constexpr bool test_and_set(T bit)
{
bool r = (m_data & shift(bit)) != 0;
m_data |= shift(bit);
return r;
}
constexpr bool test_and_reset(T bit)
{
bool r = (m_data & shift(bit)) != 0;
m_data &= ~shift(bit);
return r;
}
constexpr bool test_and_complement(T bit)
{
bool r = (m_data & shift(bit)) != 0;
m_data ^= shift(bit);
return r;
}
constexpr bool all_of(bs_t arg) const
{
return (m_data & arg.m_data) == arg.m_data;
}
constexpr bool none_of(bs_t arg) const
{
return (m_data & arg.m_data) == 0;
}
};
// Unary '+' operator: promote plain enum value to bitset value
template <BitSetEnum T>
constexpr bs_t<T> operator +(T bit)
{
return bs_t<T>(bit);
}
// Binary '+' operator: bitset union
template <BitSetEnum T, typename U> requires (std::is_constructible_v<bs_t<T>, U>)
constexpr bs_t<T> operator +(T lhs, const U& rhs)
{
return bs_t<T>(lhs) + bs_t<T>(rhs);
}
// Binary '+' operator: bitset union
template <typename U, BitSetEnum T> requires (std::is_constructible_v<bs_t<T>, U> && !std::is_enum_v<U>)
constexpr bs_t<T> operator +(const U& lhs, T rhs)
{
return bs_t<T>(lhs) + bs_t<T>(rhs);
}
// Binary '-' operator: bitset difference
template <BitSetEnum T, typename U> requires (std::is_constructible_v<bs_t<T>, U>)
constexpr bs_t<T> operator -(T lhs, const U& rhs)
{
return bs_t<T>(lhs) - bs_t<T>(rhs);
}
// Binary '-' operator: bitset difference
template <typename U, BitSetEnum T> requires (std::is_constructible_v<bs_t<T>, U> && !std::is_enum_v<U>)
constexpr bs_t<T> operator -(const U& lhs, T rhs)
{
return bs_t<T>(lhs) - bs_t<T>(rhs);
}
// Binary '&' operator: bitset intersection
template <BitSetEnum T, typename U> requires (std::is_constructible_v<bs_t<T>, U>)
constexpr bs_t<T> operator &(T lhs, const U& rhs)
{
return bs_t<T>(lhs) & bs_t<T>(rhs);
}
// Binary '&' operator: bitset intersection
template <typename U, BitSetEnum T> requires (std::is_constructible_v<bs_t<T>, U> && !std::is_enum_v<U>)
constexpr bs_t<T> operator &(const U& lhs, T rhs)
{
return bs_t<T>(lhs) & bs_t<T>(rhs);
}
// Binary '^' operator: bitset symmetric difference
template <BitSetEnum T, typename U> requires (std::is_constructible_v<bs_t<T>, U>)
constexpr bs_t<T> operator ^(T lhs, const U& rhs)
{
return bs_t<T>(lhs) ^ bs_t<T>(rhs);
}
// Binary '^' operator: bitset symmetric difference
template <typename U, BitSetEnum T> requires (std::is_constructible_v<bs_t<T>, U> && !std::is_enum_v<U>)
constexpr bs_t<T> operator ^(const U& lhs, T rhs)
{
return bs_t<T>(lhs) ^ bs_t<T>(rhs);
}
// Atomic bitset specialization with optimized operations
template <BitSetEnum T>
class atomic_bs_t : public atomic_t<::bs_t<T>>
{
// Corresponding bitset type
using bs_t = ::bs_t<T>;
// Base class
using base = atomic_t<::bs_t<T>>;
// Use underlying m_data
using base::m_data;
public:
// Underlying type
using under = typename bs_t::under;
atomic_bs_t() = default;
atomic_bs_t(const atomic_bs_t&) = delete;
atomic_bs_t& operator =(const atomic_bs_t&) = delete;
explicit constexpr atomic_bs_t(bs_t value)
: base(value)
{
}
explicit constexpr atomic_bs_t(T bit)
: base(bit)
{
}
using base::operator bs_t;
explicit operator bool() const
{
return static_cast<bool>(base::load());
}
explicit operator under() const
{
return static_cast<under>(base::load());
}
bs_t operator +() const
{
return base::load();
}
bs_t fetch_add(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::fetch_or(m_data.m_data, rhs.m_data));
}
bs_t add_fetch(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::or_fetch(m_data.m_data, rhs.m_data));
}
bs_t operator +=(const bs_t& rhs)
{
return add_fetch(rhs);
}
bs_t fetch_sub(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::fetch_and(m_data.m_data, ~rhs.m_data));
}
bs_t sub_fetch(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::and_fetch(m_data.m_data, ~rhs.m_data));
}
bs_t operator -=(const bs_t& rhs)
{
return sub_fetch(rhs);
}
bs_t fetch_and(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::fetch_and(m_data.m_data, rhs.m_data));
}
bs_t and_fetch(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::and_fetch(m_data.m_data, rhs.m_data));
}
bs_t operator &=(const bs_t& rhs)
{
return and_fetch(rhs);
}
bs_t fetch_xor(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::fetch_xor(m_data.m_data, rhs.m_data));
}
bs_t xor_fetch(const bs_t& rhs)
{
return bs_t(0, atomic_storage<under>::xor_fetch(m_data.m_data, rhs.m_data));
}
bs_t operator ^=(const bs_t& rhs)
{
return xor_fetch(rhs);
}
auto fetch_or(const bs_t&) = delete;
auto or_fetch(const bs_t&) = delete;
auto operator |=(const bs_t&) = delete;
bool test_and_set(T rhs)
{
return atomic_storage<under>::bts(m_data.m_data, static_cast<uint>(static_cast<under>(rhs)));
}
bool test_and_reset(T rhs)
{
return atomic_storage<under>::btr(m_data.m_data, static_cast<uint>(static_cast<under>(rhs)));
}
bool test_and_invert(T rhs)
{
return atomic_storage<under>::btc(m_data.m_data, static_cast<uint>(static_cast<under>(rhs)));
}
bool bit_test_set(uint bit) = delete;
bool bit_test_reset(uint bit) = delete;
bool bit_test_invert(uint bit) = delete;
bool all_of(bs_t arg) const
{
return base::load().all_of(arg);
}
bool none_of(bs_t arg) const
{
return base::load().none_of(arg);
}
};
template <typename T>
struct fmt_unveil<bs_t<T>, void>
{
// Format as is
using type = bs_t<T>;
static inline u64 get(const bs_t<T>& bitset)
{
return static_cast<std::underlying_type_t<T>>(bitset);
}
};