Narrow IL code backwords, so as to correctly handle invocations to overloaded functions from IL code.
#ifndef __ACCESSOR_H
#define __ACCESSOR_H
#define __INITIAL_VALUE(...) __VA_ARGS__
// variable declaration macros
#define __DECLARE_VAR(type, name)\
__IEC_##type##_t name;
#define __DECLARE_GLOBAL(type, domain, name)\
__IEC_##type##_t domain##__##name;\
static __IEC_##type##_t *GLOBAL__##name = &(domain##__##name);\
void __INIT_GLOBAL_##name(type value) {\
(*GLOBAL__##name).value = value;\
}\
IEC_BYTE __IS_GLOBAL_##name##_FORCED(void) {\
return (*GLOBAL__##name).flags & __IEC_FORCE_FLAG;\
}\
type* __GET_GLOBAL_##name(void) {\
return &((*GLOBAL__##name).value);\
}
#define __DECLARE_GLOBAL_LOCATION(type, location)\
extern type *location;
#define __DECLARE_GLOBAL_LOCATED(type, resource, name)\
__IEC_##type##_p resource##__##name;\
static __IEC_##type##_p *GLOBAL__##name = &(resource##__##name);\
void __INIT_GLOBAL_##name(type value) {\
*((*GLOBAL__##name).value) = value;\
}\
IEC_BYTE __IS_GLOBAL_##name##_FORCED(void) {\
return (*GLOBAL__##name).flags & __IEC_FORCE_FLAG;\
}\
type* __GET_GLOBAL_##name(void) {\
return (*GLOBAL__##name).value;\
}
#define __DECLARE_GLOBAL_PROTOTYPE(type, name)\
extern type* __GET_GLOBAL_##name();
#define __DECLARE_EXTERNAL(type, name)\
__IEC_##type##_p name;
#define __DECLARE_LOCATED(type, name)\
__IEC_##type##_p name;
// variable initialization macros
#define __INIT_RETAIN(name, retained)\
name.flags |= retained?__IEC_RETAIN_FLAG:0;
#define __INIT_VAR(name, initial, retained)\
name.value = initial;\
__INIT_RETAIN(name, retained)
#define __INIT_GLOBAL(type, name, initial, retained)\
{\
static const type temp = initial;\
__INIT_GLOBAL_##name(temp);\
__INIT_RETAIN((*GLOBAL__##name), retained)\
}
#define __INIT_GLOBAL_LOCATED(domain, name, location, retained)\
domain##__##name.value = location;\
__INIT_RETAIN(domain##__##name, retained)
#define __INIT_EXTERNAL(type, global, name, retained)\
{\
name.value = __GET_GLOBAL_##global();\
__INIT_RETAIN(name, retained)\
}
#define __INIT_LOCATED(type, location, name, retained)\
{\
extern type *location;\
name.value = location;\
__INIT_RETAIN(name, retained)\
}
#define __INIT_LOCATED_VALUE(name, initial)\
*(name.value) = initial;
// variable getting macros
#define __GET_VAR(name, ...)\
name.value __VA_ARGS__
#define __GET_EXTERNAL(name, ...)\
((name.flags & __IEC_FORCE_FLAG) ? name.fvalue __VA_ARGS__ : (*(name.value)) __VA_ARGS__)
#define __GET_LOCATED(name, ...)\
((name.flags & __IEC_FORCE_FLAG) ? name.fvalue __VA_ARGS__ : (*(name.value)) __VA_ARGS__)
#define __GET_VAR_BY_REF(name, ...)\
((name.flags & __IEC_FORCE_FLAG) ? &(name.fvalue __VA_ARGS__) : &(name.value __VA_ARGS__))
#define __GET_EXTERNAL_BY_REF(name, ...)\
((name.flags & __IEC_FORCE_FLAG) ? &(name.fvalue __VA_ARGS__) : &((*(name.value)) __VA_ARGS__))
#define __GET_LOCATED_BY_REF(name, ...)\
((name.flags & __IEC_FORCE_FLAG) ? &(name.fvalue __VA_ARGS__) : &((*(name.value)) __VA_ARGS__))
// variable setting macros
#define __SET_VAR(prefix, name, new_value, ...)\
if (!(prefix name.flags & __IEC_FORCE_FLAG)) prefix name.value __VA_ARGS__ = new_value
#define __SET_EXTERNAL(prefix, name, new_value, ...)\
if (!(prefix name.flags & __IEC_FORCE_FLAG || __IS_GLOBAL_##name##_FORCED()))\
(*(prefix name.value)) __VA_ARGS__ = new_value
#define __SET_LOCATED(prefix, name, new_value, ...)\
if (!(prefix name.flags & __IEC_FORCE_FLAG)) *(prefix name.value) __VA_ARGS__ = new_value
#endif //__ACCESSOR_H