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https://github.com/dolphin-emu/dolphin.git
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406 lines
12 KiB
C++
406 lines
12 KiB
C++
// Copyright 2017 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#pragma once
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#include <array>
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#include <climits>
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#include <cstddef>
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#include <cstdint>
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#include <cstring>
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#include <initializer_list>
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#include <type_traits>
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#ifdef _MSC_VER
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#include <intrin.h>
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#endif
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namespace Common
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{
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///
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/// Retrieves the size of a type in bits.
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///
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/// @tparam T Type to get the size of.
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///
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/// @return the size of the type in bits.
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///
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template <typename T>
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constexpr size_t BitSize() noexcept
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{
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return sizeof(T) * CHAR_BIT;
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}
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///
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/// Extracts a bit from a value.
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///
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/// @param src The value to extract a bit from.
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/// @param bit The bit to extract.
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///
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/// @tparam T The type of the value.
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///
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/// @return The extracted bit.
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///
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template <typename T>
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constexpr T ExtractBit(const T src, const size_t bit) noexcept
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{
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return (src >> bit) & static_cast<T>(1);
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}
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///
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/// Extracts a bit from a value.
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///
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/// @param src The value to extract a bit from.
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///
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/// @tparam bit The bit to extract.
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/// @tparam T The type of the value.
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///
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/// @return The extracted bit.
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///
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template <size_t bit, typename T>
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constexpr T ExtractBit(const T src) noexcept
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{
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static_assert(bit < BitSize<T>(), "Specified bit must be within T's bit width.");
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return ExtractBit(src, bit);
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}
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///
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/// Extracts a range of bits from a value.
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///
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/// @param src The value to extract the bits from.
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/// @param begin The beginning of the bit range. This is inclusive.
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/// @param end The ending of the bit range. This is inclusive.
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///
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/// @tparam T The type of the value.
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/// @tparam Result The returned result type. This is the unsigned analog
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/// of a signed type if a signed type is passed as T.
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///
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/// @return The extracted bits.
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///
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template <typename T, typename Result = std::make_unsigned_t<T>>
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constexpr Result ExtractBits(const T src, const size_t begin, const size_t end) noexcept
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{
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return static_cast<Result>(((static_cast<Result>(src) << ((BitSize<T>() - 1) - end)) >>
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(BitSize<T>() - end + begin - 1)));
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}
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///
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/// Extracts a range of bits from a value.
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///
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/// @param src The value to extract the bits from.
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///
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/// @tparam begin The beginning of the bit range. This is inclusive.
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/// @tparam end The ending of the bit range. This is inclusive.
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/// @tparam T The type of the value.
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/// @tparam Result The returned result type. This is the unsigned analog
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/// of a signed type if a signed type is passed as T.
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///
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/// @return The extracted bits.
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///
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template <size_t begin, size_t end, typename T, typename Result = std::make_unsigned_t<T>>
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constexpr Result ExtractBits(const T src) noexcept
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{
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static_assert(begin < end, "Beginning bit must be less than the ending bit.");
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static_assert(begin < BitSize<T>(), "Beginning bit is larger than T's bit width.");
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static_assert(end < BitSize<T>(), "Ending bit is larger than T's bit width.");
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return ExtractBits<T, Result>(src, begin, end);
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}
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///
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/// Rotates a value left (ROL).
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///
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/// @param value The value to rotate.
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/// @param amount The number of bits to rotate the value.
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/// @tparam T An unsigned type.
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///
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/// @return The rotated value.
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///
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template <typename T>
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constexpr T RotateLeft(const T value, size_t amount) noexcept
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{
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static_assert(std::is_unsigned<T>(), "Can only rotate unsigned types left.");
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amount %= BitSize<T>();
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if (amount == 0)
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return value;
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return static_cast<T>((value << amount) | (value >> (BitSize<T>() - amount)));
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}
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///
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/// Rotates a value right (ROR).
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///
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/// @param value The value to rotate.
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/// @param amount The number of bits to rotate the value.
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/// @tparam T An unsigned type.
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///
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/// @return The rotated value.
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///
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template <typename T>
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constexpr T RotateRight(const T value, size_t amount) noexcept
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{
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static_assert(std::is_unsigned<T>(), "Can only rotate unsigned types right.");
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amount %= BitSize<T>();
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if (amount == 0)
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return value;
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return static_cast<T>((value >> amount) | (value << (BitSize<T>() - amount)));
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}
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///
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/// Verifies whether the supplied value is a valid bit mask of the form 0b00...0011...11.
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/// Both edge cases of all zeros and all ones are considered valid masks, too.
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///
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/// @param mask The mask value to test for validity.
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///
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/// @tparam T The type of the value.
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///
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/// @return A bool indicating whether the mask is valid.
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///
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template <typename T>
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constexpr bool IsValidLowMask(const T mask) noexcept
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{
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static_assert(std::is_integral<T>::value, "Mask must be an integral type.");
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static_assert(std::is_unsigned<T>::value, "Signed masks can introduce hard to find bugs.");
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// Can be efficiently determined without looping or bit counting. It's the counterpart
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// to https://graphics.stanford.edu/~seander/bithacks.html#DetermineIfPowerOf2
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// and doesn't require special casing either edge case.
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return (mask & (mask + 1)) == 0;
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}
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///
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/// Reinterpret objects of one type as another by bit-casting between object representations.
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///
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/// @remark This is the example implementation of std::bit_cast which is to be included
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/// in C++2a. See http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2017/p0476r2.html
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/// for more details. The only difference is this variant is not constexpr,
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/// as the mechanism for bit_cast requires a compiler built-in to have that quality.
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///
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/// @param source The source object to convert to another representation.
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///
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/// @tparam To The type to reinterpret source as.
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/// @tparam From The initial type representation of source.
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///
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/// @return The representation of type From as type To.
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///
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/// @pre Both To and From types must be the same size
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/// @pre Both To and From types must satisfy the TriviallyCopyable concept.
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///
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template <typename To, typename From>
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inline To BitCast(const From& source) noexcept
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{
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static_assert(sizeof(From) == sizeof(To),
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"BitCast source and destination types must be equal in size.");
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static_assert(std::is_trivially_copyable<From>(),
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"BitCast source type must be trivially copyable.");
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static_assert(std::is_trivially_copyable<To>(),
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"BitCast destination type must be trivially copyable.");
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std::aligned_storage_t<sizeof(To), alignof(To)> storage;
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std::memcpy(&storage, &source, sizeof(storage));
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return reinterpret_cast<To&>(storage);
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}
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template <typename T, typename PtrType>
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class BitCastPtrType
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{
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public:
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static_assert(std::is_trivially_copyable<PtrType>(),
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"BitCastPtr source type must be trivially copyable.");
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static_assert(std::is_trivially_copyable<T>(),
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"BitCastPtr destination type must be trivially copyable.");
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explicit BitCastPtrType(PtrType* ptr) : m_ptr(ptr) {}
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// Enable operator= only for pointers to non-const data
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template <typename S>
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inline typename std::enable_if<std::is_same<S, T>() && !std::is_const<PtrType>()>::type
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operator=(const S& source)
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{
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std::memcpy(m_ptr, &source, sizeof(source));
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}
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inline operator T() const
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{
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T result;
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std::memcpy(&result, m_ptr, sizeof(result));
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return result;
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}
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private:
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PtrType* m_ptr;
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};
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// Provides an aliasing-safe alternative to reinterpret_cast'ing pointers to structs
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// Conversion constructor and operator= provided for a convenient syntax.
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// Usage: MyStruct s = BitCastPtr<MyStruct>(some_ptr);
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// BitCastPtr<MyStruct>(some_ptr) = s;
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template <typename T, typename PtrType>
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inline auto BitCastPtr(PtrType* ptr) noexcept -> BitCastPtrType<T, PtrType>
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{
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return BitCastPtrType<T, PtrType>{ptr};
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}
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// Similar to BitCastPtr, but specifically for aliasing structs to arrays.
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template <typename ArrayType, typename T,
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typename Container = std::array<ArrayType, sizeof(T) / sizeof(ArrayType)>>
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inline auto BitCastToArray(const T& obj) noexcept -> Container
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{
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static_assert(sizeof(T) % sizeof(ArrayType) == 0,
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"Size of array type must be a factor of size of source type.");
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static_assert(std::is_trivially_copyable<T>(),
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"BitCastToArray source type must be trivially copyable.");
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static_assert(std::is_trivially_copyable<Container>(),
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"BitCastToArray array type must be trivially copyable.");
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Container result;
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std::memcpy(result.data(), &obj, sizeof(T));
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return result;
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}
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template <typename ArrayType, typename T,
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typename Container = std::array<ArrayType, sizeof(T) / sizeof(ArrayType)>>
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inline void BitCastFromArray(const Container& array, T& obj) noexcept
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{
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static_assert(sizeof(T) % sizeof(ArrayType) == 0,
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"Size of array type must be a factor of size of destination type.");
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static_assert(std::is_trivially_copyable<Container>(),
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"BitCastFromArray array type must be trivially copyable.");
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static_assert(std::is_trivially_copyable<T>(),
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"BitCastFromArray destination type must be trivially copyable.");
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std::memcpy(&obj, array.data(), sizeof(T));
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}
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template <typename ArrayType, typename T,
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typename Container = std::array<ArrayType, sizeof(T) / sizeof(ArrayType)>>
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inline auto BitCastFromArray(const Container& array) noexcept -> T
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{
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static_assert(sizeof(T) % sizeof(ArrayType) == 0,
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"Size of array type must be a factor of size of destination type.");
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static_assert(std::is_trivially_copyable<Container>(),
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"BitCastFromArray array type must be trivially copyable.");
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static_assert(std::is_trivially_copyable<T>(),
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"BitCastFromArray destination type must be trivially copyable.");
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T obj;
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std::memcpy(&obj, array.data(), sizeof(T));
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return obj;
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}
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template <typename T>
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void SetBit(T& value, size_t bit_number, bool bit_value)
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{
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static_assert(std::is_unsigned<T>(), "SetBit is only sane on unsigned types.");
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if (bit_value)
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value |= (T{1} << bit_number);
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else
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value &= ~(T{1} << bit_number);
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}
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template <size_t bit_number, typename T>
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void SetBit(T& value, bool bit_value)
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{
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SetBit(value, bit_number, bit_value);
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}
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template <typename T>
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class FlagBit
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{
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public:
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FlagBit(std::underlying_type_t<T>& bits, T bit) : m_bits(bits), m_bit(bit) {}
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explicit operator bool() const
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{
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return (m_bits & static_cast<std::underlying_type_t<T>>(m_bit)) != 0;
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}
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FlagBit& operator=(const bool rhs)
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{
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if (rhs)
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m_bits |= static_cast<std::underlying_type_t<T>>(m_bit);
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else
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m_bits &= ~static_cast<std::underlying_type_t<T>>(m_bit);
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return *this;
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}
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private:
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std::underlying_type_t<T>& m_bits;
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T m_bit;
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};
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template <typename T>
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class Flags
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{
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public:
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constexpr Flags() = default;
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constexpr Flags(std::initializer_list<T> bits)
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{
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for (auto bit : bits)
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{
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m_hex |= static_cast<std::underlying_type_t<T>>(bit);
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}
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}
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FlagBit<T> operator[](T bit) { return FlagBit(m_hex, bit); }
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std::underlying_type_t<T> m_hex = 0;
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};
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// Left-shift a value and set new LSBs to that of the supplied LSB.
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// Converts a value from a N-bit range to an (N+X)-bit range. e.g. 0x101 -> 0x10111
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template <typename T>
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T ExpandValue(T value, size_t left_shift_amount)
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{
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static_assert(std::is_unsigned<T>(), "ExpandValue is only sane on unsigned types.");
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return (value << left_shift_amount) |
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(T(-ExtractBit<0>(value)) >> (BitSize<T>() - left_shift_amount));
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}
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constexpr int CountLeadingZeros(uint64_t value)
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{
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#if defined(__GNUC__)
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return __builtin_clzll(value);
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#elif defined(_MSC_VER) && defined(_M_ARM_64)
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return _CountLeadingZeros64(value);
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#elif defined(_MSC_VER) && defined(_M_X86_64)
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unsigned long index;
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return _BitScanReverse64(&index, value) ? 63 - index : 64;
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#else
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int result = 64;
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while (value)
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{
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result--;
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value >>= 1;
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}
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return result;
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#endif
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}
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constexpr int CountLeadingZeros(uint32_t value)
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{
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#if defined(__GNUC__)
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return __builtin_clz(value);
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#elif defined(_MSC_VER) && defined(_M_ARM_64)
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return _CountLeadingZeros(value);
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#elif defined(_MSC_VER) && defined(_M_X86_64)
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unsigned long index;
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return _BitScanReverse(&index, value) ? 31 - index : 32;
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#else
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int result = 32;
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while (value)
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{
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result--;
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value >>= 1;
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}
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return result;
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#endif
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}
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} // namespace Common
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