// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #ifndef MACRO_UTILS_H #define MACRO_UTILS_H #include "azure_macro_utils/macro_utils_generated.h" #ifdef __cplusplus #include #include extern "C" { #else #include #include #endif #if (defined OPTIMIZE_RETURN_CODES) #define MU_FAILURE 1 #else #define MU_FAILURE __LINE__ #endif /*"pointer or NULL" macro - because when printf-ing arguments NULL is not valid for %s (section 7.1.4 of C11 standard) */ #define MU_P_OR_NULL(p) (((p)!=NULL)?(p):"NULL") #define MU_WP_OR_NULL(p) (((p)!=NULL)?(p):L"NULL") #define MU_TOSTRING_(x) #x #define MU_TOSTRING(x) MU_TOSTRING_(x) #define MU_TRIGGER_PARENTHESIS(...) , #define MU_LPAREN ( #define MU_C2_(x,y) x##y #define MU_C2(x,y) MU_C2_(x,y) #define MU_C3(x,y,z) MU_C2(x, MU_C2(y,z)) #define MU_C4(x,y,z, u) MU_C2(MU_C2(x,y), MU_C2(z,u)) #define MU_C5(x,y,z,u, v) MU_C2(MU_C4(x,y, z, u), v) #define MU_C1_(x) x #define MU_C1(x) MU_C1_(x) #define MU_C2STRING(x,y) x y #define MU_C3STRING(x,y,z) x y z #define MU_C4STRING(x,y,z,u) x y z u #define MU_C5STRING(x,y,z,u,v) x y z u v /* we need some sort of macro that does: MU_IF(0, "true", "false") => "false" MU_IF(1, "true", "false") => "true" MU_IF(X, "true", "false") => "true" */ #define MU_INTERNALIF(x) MU_INTERNALIF##x #define MU_INTERNALIF0 #define MU_ISZERO(x) MU_COUNT_ARG(MU_INTERNALIF(x)) #define MU_IF(condition, trueBranch, falseBranch) MU_C2(MU_IF,MU_ISZERO(condition))(trueBranch, falseBranch) #define MU_IF0(trueBranch, falseBranch) falseBranch #define MU_IF1(trueBranch, falseBranch) trueBranch /*the following macro want to eat empty arguments from a list */ /*examples: */ /*MU_EAT_EMPTY_ARGS(, , X) expands to X */ #define MU_EXPAND_TO_NOTHING(arg) #define MU_EAT_EMPTY_ARG(arg_count, arg) MU_IF(MU_ISEMPTY(arg),,arg) MU_IF(MU_ISEMPTY(arg),MU_EXPAND_TO_NOTHING,MU_IFCOMMALOGIC)(MU_DEC(arg_count)) #define MU_EAT_EMPTY_ARGS(...) MU_FOR_EACH_1_COUNTED(MU_EAT_EMPTY_ARG, __VA_ARGS__) #define MU_DEFINE_ENUMERATION_CONSTANT(x) x, /*MU_DEFINE_ENUM_WITHOUT_INVALID goes to header*/ #define MU_DEFINE_ENUM_WITHOUT_INVALID(enumName, ...) typedef enum MU_C2(enumName, _TAG) { MU_FOR_EACH_1(MU_DEFINE_ENUMERATION_CONSTANT, __VA_ARGS__)} enumName; \ extern const char* MU_C2(enumName,Strings)(enumName value); \ extern int MU_C2(enumName, _FromString)(const char* enumAsString, enumName* destination); // this macro is a wrapper on top of MU_DEFINE_ENUM_WITHOUT_INVALID, adding an _INVALID value as the first enum value in the enum #define MU_DEFINE_ENUM(enumName, ...) \ MU_DEFINE_ENUM_WITHOUT_INVALID(enumName, MU_C2(enumName, _INVALID), __VA_ARGS__) #define MU_DEFINE_ENUMERATION_CONSTANT_AS_WIDESTRING(x) MU_C2(L, MU_TOSTRING(x)) , #define MU_DEFINE_ENUMERATION_CONSTANT_AS_STRING(x) MU_TOSTRING(x) , /*MU_DEFINE_ENUM_STRINGS_WITHOUT_INVALID goes to .c*/ #define MU_DEFINE_ENUM_STRINGS_WITHOUT_INVALID(enumName, ...) const char* MU_C2(enumName, StringStorage)[MU_COUNT_ARG(__VA_ARGS__)] = {MU_FOR_EACH_1(MU_DEFINE_ENUMERATION_CONSTANT_AS_STRING, __VA_ARGS__)}; \ const char* MU_C2(enumName,Strings)(enumName value) \ { \ if((int)value<0 || (int)value>=MU_COUNT_ARG(__VA_ARGS__)) \ { \ /*this is an error case*/ \ return "NULL"; \ } \ else \ { \ return MU_C2(enumName, StringStorage)[value]; \ } \ } \ int MU_C2(enumName, _FromString)(const char* enumAsString, enumName* destination) \ { \ if( \ (enumAsString==NULL) || (destination==NULL) \ ) \ { \ return MU_FAILURE; \ } \ else \ { \ size_t i; \ for(i=0;i=MU_COUNT_ARG(__VA_ARGS__)) \ { \ /*this is an error case*/ \ return "NULL"; \ } \ else \ { \ return MU_C2(enumName, StringStorage)[value]; \ } \ } // this macro is a wrapper on top of MU_DEFINE_LOCAL_ENUM_WITHOUT_INVALID, adding an _INVALID value as the first enum value in the enum #define MU_DEFINE_LOCAL_ENUM(enumName, ...) \ MU_DEFINE_LOCAL_ENUM_WITHOUT_INVALID(enumName, MU_C2(enumName, _INVALID), __VA_ARGS__) // this macro returns the number of enum values (taking into account that an invalid value is generated) #define MU_ENUM_VALUE_COUNT(...) (MU_COUNT_ARG(__VA_ARGS__) + 1) // this macro returns the number of enum 2 values (taking into account that an invalid value is generated) #define MU_ENUM_2_VALUE_COUNT(...) ((MU_COUNT_ARG(__VA_ARGS__) / 2) + 1) #define MU_ENUM_TO_STRING(enumName, enumValue) MU_C2(enumName, Strings)(enumValue) #define MU_STRING_TO_ENUM(stringValue, enumName, addressOfEnumVariable) MU_C2(enumName, _FromString)(stringValue, addressOfEnumVariable) #define MU_EMPTY() #define MACRO_UTILS_DELAY(id) id MU_EMPTY MU_LPAREN ) #define MU_DEFINE_ENUMERATION_CONSTANT_2(enumerationConstant, constantExpression) enumerationConstant = constantExpression, #define MU_DECLARE_ENUM_STRINGS_2(enumIdentifier, ...) extern const char* MU_C3(MU_, enumIdentifier,_ToString)(enumIdentifier enumerationConstant); #define MU_DEFINE_ENUM_2_WITHOUT_INVALID(enumIdentifier, ... ) typedef enum MU_C2(enumIdentifier, _TAG) {MU_FOR_EACH_2(MU_DEFINE_ENUMERATION_CONSTANT_2, __VA_ARGS__)} enumIdentifier; \ MU_DECLARE_ENUM_STRINGS_2(enumIdentifier, __VA_ARGS__) // this macro is a wrapper on top of MU_DEFINE_ENUM, adding an _INVALID value as the first enum value in the enum #define MU_DEFINE_ENUM_2(enumName, ...) \ MU_DEFINE_ENUM_2_WITHOUT_INVALID(enumName, MU_C2(enumName, _INVALID), (int)0xDDDDDDDD, __VA_ARGS__) typedef struct ENUM_VALUE_AND_STRING_TAG { int value; const char* valueAsString; }ENUM_VALUE_AND_STRING; #define MU_DEFINE_ENUM_VALUE_AND_STRING(enumerationConstant, constantExpression) {enumerationConstant, MU_TOSTRING(enumerationConstant)}, #define MU_DEFINE_ENUM_STRINGS_2(enumIdentifier, ... ) static const ENUM_VALUE_AND_STRING MU_C2(enumIdentifier, _ValuesAndStrings)[MU_DIV2(MU_COUNT_ARG(__VA_ARGS__))] ={MU_FOR_EACH_2(MU_DEFINE_ENUM_VALUE_AND_STRING, __VA_ARGS__)}; \ const char* MU_C3(MU_, enumIdentifier,_ToString)(enumIdentifier value) \ { \ for(size_t i=0;i