我非常想为自己尝试this technique,但是我在GCC和Clang上遇到编译错误:
Undefined symbols for architecture x86_64:
"foo::_theInfo", referenced from:
foo::info() in reflect-eLsDqz.o
ld: symbol(s) not found for architecture x86_64
这是代码(直接在博客上托管的zip),我希望Watte先生不介意。
/* A simple C++ reflection mark-up library. The strength
of this library is that it is entirely static (all the
reflection information is built without using dynamic
memory allocation), and it is exremely compact, allowing
you to declare the members of a structure right where
that struct is declared, leading to minimal risk of
version mismatch.
This code is placed in the public domain by Jon Watte.
http://www.enchantedage.com/cpp-reflection
Version 2009-04-20
*/
#include <typeinfo>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
struct TypeBase
{
virtual void Marshal(void *, void const *) const = 0;
virtual void Demarshal(void const *, void *) const = 0;
virtual char const *name() const = 0;
virtual size_t size() const = 0;
};
template<typename T> struct Type : TypeBase
{
static Type<T> instance;
// custom marshaling is handled by template specialization
void Marshal(void *dst, void const *src) const { memcpy(dst, src, sizeof(T)); }
void Demarshal(void const *src, void *dst) const { memcpy(dst, src, sizeof(T)); }
char const *name() const { return typeid(T).name(); }
size_t size() const { return sizeof(T); }
};
template <typename T> T& instance() {
static T t;
return t;
}
template<typename T, typename Q>
TypeBase *get_type(Q T::*mem) {
return &instance<Type<Q> >();
}
struct member_t
{
char const *name;
TypeBase *type;
size_t offset;
};
struct ReflectionBase
{
void ReflectionConstruct();
virtual size_t size() const = 0;
virtual char const *name() const = 0;
virtual size_t memberCount() const = 0;
virtual member_t const *members() const = 0;
};
void ReflectionBase::ReflectionConstruct()
{
// todo: register myself in some table, etc
members();
memberCount();
name();
size();
}
#define MEMBER(x) \
{ #x, get_type(&T::x), (size_t)&((T*)0)->x },
#define RTTI(_type, _mems) \
template<typename T> struct _info : ReflectionBase { \
/* overrides used by ReflectionBase */ \
inline size_t size() const { return sizeof(T); } \
inline char const *name() const { return #_type; } \
inline size_t memberCount() const { size_t cnt; get_members(cnt); return cnt; } \
inline member_t const *members() const { size_t cnt; return get_members(cnt); } \
_info() { ReflectionConstruct(); } \
static inline member_t const *get_members(size_t &cnt) { \
static member_t members[] = { _mems }; \
cnt = sizeof(members) / sizeof(members[0]); \
return members; \
} \
static inline _info<T> &info() { \
return instance<_info<T> >(); \
} \
}; \
inline static member_t const * members() { return _info<_type>::info().members(); } \
static _info<_type> _theInfo; \
inline static _info<_type> &info() { return _theInfo; }
struct foo {
int x, y, z;
RTTI(foo, MEMBER(x) MEMBER(y) MEMBER(z))
};
int main() {
printf("type: %s\n", foo::info().name());
printf("size: %ld\n", foo::info().size());
for (size_t i = 0; i != foo::info().memberCount(); ++i) {
printf(" %s: offset %ld size %ld type %s\n",
foo::info().members()[i].name, foo::info().members()[i].offset,
foo::info().members()[i].type->size(), foo::info().members()[i].type->name());
}
return 0;
}
因此,static _info<_type> _theInfo在上面的行中声明,但有些东西不起作用。我想我已经接近了解这段代码是如何工作的(MEMBER是一个整齐的小宏,可以获取成员的偏移量,这很有趣),但我从来没有必要像因为把一个模板化的类定义放在一个宏之前可怕,所以我实际上不知道从哪里开始戳这个。
答案 0 :(得分:1)
我找到了compile.
的其他版本inline static _info<_type> &info() \
{ \
static _info<_type> _theInfo; \
return _theInfo; \
}