libcmo21/LibCmo/VTUtils.hpp

#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>

// Header for this namespace implementation
#include <string>
#include <type_traits>
#include <initializer_list>

namespace LibCmo {

#pragma region LibCmo Exceptions

	/**
	 * @brief The exception raised 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 raised 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 raised 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

	namespace EnumsHelper {
		
		/**
		 * @brief Return 'e1 | e2 | ... | en'
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline TEnum Merge(std::initializer_list<TEnum> il) {
			using ut = std::underlying_type_t<TEnum>;
			ut result = 0;
			for (auto it = il.begin(); it != il.end(); ++it) {
				result |= static_cast<ut>(*it);
			}
			return static_cast<TEnum>(result);
		}

		/**
		 * @brief Return '~(e)'
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline TEnum Inv(TEnum e) {
			using ut = std::underlying_type_t<TEnum>;
			return static_cast<TEnum>(~(static_cast<ut>(e)));
		}
		
		/**
		 * @brief Operate e1 &= (~e2)
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline 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)));
		}
		
		/**
		 * @brief Operate e1 &= e2
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline 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));
		}
		
		/**
		 * @brief Operate e1 |= e2
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline 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));
		}
		
		/**
		 * @brief Return 'bool(e1 & e2)'
		*/
		template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>
		inline bool Has(TEnum e, TEnum probe) {
			using ut = std::underlying_type_t<TEnum>;
			return static_cast<bool>(static_cast<ut>(e) & static_cast<ut>(probe));
		}
	}

}
move to c 2023-02-06 15:58:16 +08:00			`#pragma once`

refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`// Check LibCmo build type first.`
fix cmake build issue. fix build type checker. rm IronPad windows header including under linux 2023-09-25 21:45:53 +08:00			`#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!"`
add features - add LIBCMO_BUILD_DEBUG and etc build macro. - add notify in CKGlobals for CKMesh and etc. - add test command. 2023-09-20 20:44:03 +08:00			`#endif`

refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`// Include YYCC helper library`
			`#include <YYCCommonplace.hpp>`
almost finish migration from py to c++ 2023-02-11 15:29:51 +08:00
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`// Header for this namespace implementation`
			`#include <string>`
refactor project 2023-02-26 21:48:03 +08:00			`#include <type_traits>`
add cmake support and fix some header issues 2023-03-01 10:48:50 +08:00			`#include <initializer_list>`
remove all raw char type ref in code 2023-09-17 10:38:46 +08:00
refactor project (1/?) 2023-08-22 15:30:26 +08:00			`namespace LibCmo {`
refactor project 2023-02-26 21:48:03 +08:00
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`#pragma region LibCmo Exceptions`
improve proj - remove VTImage.hpp to make sure stb image do not need external project to ref. - finish CKStateChunk write part. add some compatibilty code. - add debugger pause function - add filename getter for CKPathManager. 2023-09-24 20:56:23 +08:00
			`/**`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`* @brief The exception raised 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.`
improve proj - remove VTImage.hpp to make sure stb image do not need external project to ref. - finish CKStateChunk write part. add some compatibilty code. - add debugger pause function - add filename getter for CKPathManager. 2023-09-24 20:56:23 +08:00			`*/`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`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 raised 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 raised 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`
refactor (4/?) 2023-08-25 21:57:22 +08:00
write shit 2023-08-25 17:35:45 +08:00			`namespace EnumsHelper {`
basically finish register. still have bug 2023-09-17 12:39:21 +08:00
			`/**`
			`* @brief Return 'e1 \| e2 \| ... \| en'`
			`*/`
write shit 2023-08-25 17:35:45 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
			`inline TEnum Merge(std::initializer_list<TEnum> il) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`ut result = 0;`
write shit 2023-08-25 17:35:45 +08:00			`for (auto it = il.begin(); it != il.end(); ++it) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`result \|= static_cast<ut>(*it);`
write shit 2023-08-25 17:35:45 +08:00			`}`
			`return static_cast<TEnum>(result);`
			`}`

basically finish register. still have bug 2023-09-17 12:39:21 +08:00			`/**`
			`* @brief Return '~(e)'`
			`*/`
write shit 2023-08-25 17:35:45 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
			`inline TEnum Inv(TEnum e) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`return static_cast<TEnum>(~(static_cast<ut>(e)));`
write shit 2023-08-25 17:35:45 +08:00			`}`
basically finish register. still have bug 2023-09-17 12:39:21 +08:00
			`/**`
			`* @brief Operate e1 &= (~e2)`
			`*/`
write shit 2023-08-25 17:35:45 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
refactor (4/?) 2023-08-25 21:57:22 +08:00			`inline void Rm(TEnum& e1, TEnum e2) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`e1 = static_cast<TEnum>(static_cast<ut>(e1) & static_cast<ut>(Inv(e2)));`
write shit 2023-08-25 17:35:45 +08:00			`}`
add some reading function 2023-09-15 17:03:36 +08:00
basically finish register. still have bug 2023-09-17 12:39:21 +08:00			`/**`
			`* @brief Operate e1 &= e2`
			`*/`
add some reading function 2023-09-15 17:03:36 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
			`inline void Mask(TEnum& e1, TEnum e2) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`e1 = static_cast<TEnum>(static_cast<ut>(e1) & static_cast<ut>(e2));`
add some reading function 2023-09-15 17:03:36 +08:00			`}`
basically finish register. still have bug 2023-09-17 12:39:21 +08:00
			`/**`
			`* @brief Operate e1 \|= e2`
			`*/`
write shit 2023-08-25 17:35:45 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
refactor (4/?) 2023-08-25 21:57:22 +08:00			`inline void Add(TEnum& e1, TEnum e2) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`e1 = static_cast<TEnum>(static_cast<ut>(e1) \| static_cast<ut>(e2));`
write shit 2023-08-25 17:35:45 +08:00			`}`
basically finish register. still have bug 2023-09-17 12:39:21 +08:00
			`/**`
			`* @brief Return 'bool(e1 & e2)'`
			`*/`
write shit 2023-08-25 17:35:45 +08:00			`template<typename TEnum, std::enable_if_t<std::is_enum_v<TEnum>, int> = 0>`
			`inline bool Has(TEnum e, TEnum probe) {`
refactor: update project - add documentation CMake build script. re-organise document layout for future changes. - move LIBCMO_EXPORT to BMap and rename it to BMAP_EXPORT because only BMap need to use this macro. - fully refactor VTEncoding to make it more like Python - Now language name is platform independent. - Hide implementation detail as possible as I can. - Language mapping are still work in progress. - add code gen for new added universal encoding feature to generate language name mapping in Windows and Iconv respectively. - remove old code of CMake build script. - update VTUtils for new requirement. - remove useless functions. - create LibCmo specific custom exception classes. 2024-08-16 22:07:23 +08:00			`using ut = std::underlying_type_t<TEnum>;`
			`return static_cast<bool>(static_cast<ut>(e) & static_cast<ut>(probe));`
write shit 2023-08-25 17:35:45 +08:00			`}`
			`}`
refactor(2/?) 2023-08-23 16:04:58 +08:00
almost finish migration from py to c++ 2023-02-11 15:29:51 +08:00			`}`