libcmo21/LibCmo/VTUtils.hpp

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#pragma once
// Check LibCmo build type first.
#if !(defined(LIBCMO_BUILD_DEBUG) ^ defined(LIBCMO_BUILD_RELEASE))
#error "You must define ONE of LIBCMO_BUILD_DEBUG and LIBCMO_BUILD_RELEASE to indicate build type!"
#endif
// Include YYCC helper library
#include <YYCCommonplace.hpp>
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// Header for this namespace implementation
#include <string>
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#include <type_traits>
#include <initializer_list>
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/**
* @brief The core namespace of LibCmo project.
* @details All functions and classes involving LibCmo are located in this namespace.
*/
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namespace LibCmo {
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#pragma region LibCmo Exceptions
/**
* @brief The exception thrown when library entering unreachable scope.
* @details This exception usually used in \c switch syntax.
* It means that program enter the scope which it definitely can not enter.
*/
class UnreachableException : public std::exception {
public:
UnreachableException(const char* msg) : message(msg ? msg : "") {}
UnreachableException(const UnreachableException& rhs) : message(rhs.message) {}
virtual ~UnreachableException() {}
[[nodiscard]] virtual const char* what() const override { return message.c_str(); }
private:
std::string message;
};
/**
* @brief The exception thrown when library entering logic error.
* @details In theory, this exception can be found by reading code.
* It usually caused by programmer use functions in a wrong way.
* For example, pass invalid argument to function and etc.
*/
class LogicException : public std::exception {
public:
LogicException(const char* msg) : message(msg ? msg : "") {}
LogicException(const LogicException& rhs) : message(rhs.message) {}
virtual ~LogicException() {}
[[nodiscard]] virtual const char* what() const override { return message.c_str(); }
private:
std::string message;
};
/**
* @brief The exception thrown when library entering runtime error.
* @details In theory, this exception can not be found by reading code.
* It may caused by user input or anything else.
*/
class RuntimeException : public std::exception {
public:
RuntimeException(const char* msg) : message(msg ? msg : "") {}
RuntimeException(const RuntimeException& rhs) : message(rhs.message) {}
virtual ~RuntimeException() {}
[[nodiscard]] virtual const char* what() const override { return message.c_str(); }
private:
std::string message;
};
#pragma endregion
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/**
* @brief The namespace for convenient C++ enum class logic operations.
* @details
* C++ enum class statement is a modern way to declare enum in C++.
* But it lack essential logic operations which is commonly used by programmer.
* So we create this helper to resolve this issue.
*/
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namespace EnumsHelper {
/**
* @brief Merge given enum flags like performing <TT>e1 | e2 | ... | en</TT>
* @tparam TEnum Enum type for processing.
* @param[in] il The list of enum flags to be merged.
* @return The merged enum flag.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr TEnum Merge(std::initializer_list<TEnum> il) {
using ut = std::underlying_type_t<TEnum>;
ut result = 0;
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for (auto it = il.begin(); it != il.end(); ++it) {
result |= static_cast<ut>(*it);
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}
return static_cast<TEnum>(result);
}
/**
* @brief Reverse given enum flags like performing <TT>~(e)</TT>
* @tparam TEnum Enum type for processing.
* @param[in] e The list of enum flags to be inversed.
* @return The inversed enum flag.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr TEnum Inv(TEnum e) {
using ut = std::underlying_type_t<TEnum>;
return static_cast<TEnum>(~(static_cast<ut>(e)));
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}
/**
* @brief Remove specified enum flags from given enum flags like performing <TT>e1 &= (~e2)</TT>
* @tparam TEnum Enum type for processing.
* @param[in,out] e1 The enum flags to be processed.
* @param[in] e2 The enum flag to be removed.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr void Rm(TEnum& e1, TEnum e2) {
using ut = std::underlying_type_t<TEnum>;
e1 = static_cast<TEnum>(static_cast<ut>(e1) & static_cast<ut>(Inv(e2)));
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}
/**
* @brief Use specified enum flags to mask given enum flags like performing <TT>e1 &= e2</TT>
* @tparam TEnum Enum type for processing.
* @param[in,out] e1 The enum flags to be masked.
* @param[in] e2 The mask enum flag.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr void Mask(TEnum& e1, TEnum e2) {
using ut = std::underlying_type_t<TEnum>;
e1 = static_cast<TEnum>(static_cast<ut>(e1) & static_cast<ut>(e2));
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}
/**
* @brief Add specified enum flags to given enum flags like performing <TT>e1 |= e2</TT>
* @tparam TEnum Enum type for processing.
* @param[in,out] e1 The enum flags to be processed.
* @param[in] e2 The enum flag to be added.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr void Add(TEnum& e1, TEnum e2) {
using ut = std::underlying_type_t<TEnum>;
e1 = static_cast<TEnum>(static_cast<ut>(e1) | static_cast<ut>(e2));
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}
/**
* @brief Check whether given enum flags has specified enum flag like performing <TT>bool(e & probe)</TT>
* @tparam TEnum Enum type for processing.
* @param[in] e1 The enum flags to be checked.
* @param[in] e2 The enum flag for checking.
* @return True if it has, otherwise false.
*/
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template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
constexpr bool Has(TEnum e1, TEnum e2) {
using ut = std::underlying_type_t<TEnum>;
return static_cast<bool>(static_cast<ut>(e1) & static_cast<ut>(e2));
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}
}
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}