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/* -------------------------------------------
Copyright SoftwareLabs
------------------------------------------- */
#pragma once
#include <NewKit/Macros.hpp>
#define NEWKIT_VERSION "1.01"
#if !defined(_INC_NO_STDC_HEADERS) && defined(__GNUC__)
#include <CRT/__mpcc_defines.hxx>
#endif
#ifdef __has_feature
#if !__has_feature(cxx_nullptr)
#if !__has_nullptr
#error You must at least have nullptr featured on your C++ compiler.
#endif
#endif
#endif
/// @brief NewOS namespace.
namespace NewOS
{
using voidPtr = void*;
using VoidPtr = void*;
using nullPtr = decltype(nullptr);
using NullPtr = decltype(nullptr);
using Int = int;
using Int32 = int;
using UShort = unsigned short;
using UInt16 = unsigned short;
using Short = short;
using Int16 = short;
using UInt = unsigned int;
using UInt32 = unsigned int;
using Long = __INT64_TYPE__;
using Int64 = __INT64_TYPE__;
using ULong = __UINT64_TYPE__;
using UInt64 = __UINT64_TYPE__;
using Boolean = bool;
using Bool = bool;
using Char = char;
using UChar = unsigned char;
using UInt8 = unsigned char;
using SSize = Int64;
using SSizeT = Int64;
using Size = __SIZE_TYPE__;
using SizeT = __SIZE_TYPE__;
using IntPtr = __INTPTR_TYPE__;
using UIntPtr = __UINTPTR_TYPE__;
using IntFast = __INT_FAST32_TYPE__;
using IntFast64 = __INT_FAST64_TYPE__;
using PtrDiff = __PTRDIFF_TYPE__;
typedef UIntPtr* Ptr64;
typedef UInt32* Ptr32;
using Utf8Char = char8_t;
using Utf16Char = char16_t;
using WideChar = wchar_t;
using Utf32Char = char32_t;
using Void = void;
using Lba = UInt64;
enum class Endian : UChar
{
kEndianLittle,
kEndianBig,
kEndianMixed,
kCount
};
/// @brief Forward object.
/// @tparam Args the object type.
/// @param arg the object.
/// @return object's rvalue
template <typename Args>
inline Args&& forward(Args& arg)
{
return static_cast<Args&&>(arg);
}
/// @brief Move object.
/// @tparam Args the object type.
/// @param arg the object.
/// @return object's rvalue
template <typename Args>
inline Args&& move(Args&& arg)
{
return static_cast<Args&&>(arg);
}
/// @brief Encoder class
/// Used to cast A to B or B to A.
class Encoder final
{
public:
explicit Encoder() = default;
~Encoder() = default;
Encoder& operator=(const Encoder&) = default;
Encoder(const Encoder&) = default;
public:
/// @brief Convert type to bytes.
/// @tparam T the type.
/// @param type (a1) the data.
/// @return a1 as Char*
template <typename T>
Char* AsBytes(T type) noexcept
{
return reinterpret_cast<Char*>(type);
}
/// @brief Convert T class to Y class.
/// @tparam T the class type of type.
/// @tparam Y the result class.
/// @param type the class to cast.
/// @return the class as Y.
template <typename T, typename Y>
Y As(T type) noexcept
{
return type.template As<Y>();
}
};
} // namespace NewOS
#define DEDUCE_ENDIAN(address, value) \
(((reinterpret_cast<NewOS::Char*>(address)[0]) == (value)) \
? (NewOS::Endian::kEndianBig) \
: (NewOS::Endian::kEndianLittle))
#define Yes (true)
#define No (false)
#define VoidStar NewOS::voidPtr
#ifdef INIT
#undef INIT
#endif // ifdef INIT
#define INIT(OBJ, TYPE, ...) TYPE OBJ = TYPE(__VA_ARGS__)
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