Object Instantiation from Class Name Strings
In C , it's not possible to instantiate an object from a string containing the class name without explicit mapping. This limitation stems from the static nature of C , where types must be known at compile time.
Option 1: Manual Mapping Using Templates
You can create a template function for each class you want to instantiate and a map to link class names to the corresponding template functions. For example:
template<typename T> Base* createInstance() { return new T; }
map_type map;
map["DerivedA"] = &createInstance<DerivedA>;
map["DerivedB"] = &createInstance<DerivedB>;
To instantiate an object, use:
return map[some_string]();
Option 2: Runtime Type Registration
You can have classes register themselves with a static mechanism and then retrieve instances dynamically. This involves using a singleton map to store class name to function mappings. Here's an example:
struct BaseFactory {
static Base * createInstance(std::string const& s) {
auto it = getMap()->find(s);
return it != getMap()->end() ? it->second() : nullptr;
}
static std::map<std::string, std::function<Base*()>> * getMap() {
if (!map) { map = new std::map<std::string, std::function<Base*()>>; }
return map;
}
private:
static std::map<std::string, std::function<Base*()>> * map;
};
template<typename T>
struct DerivedRegister : BaseFactory {
DerivedRegister(std::string const& s) {
getMap()->insert({s, &createInstance<T>});
}
};
class DerivedB {
private:
static DerivedRegister<DerivedB> reg("DerivedB");
};
This method allows for automatic registration of classes at runtime.
Option 3: Boost Variant
If you have unrelated classes with no common base class, you can use the Boost variant library:
typedef boost::variant<Foo, Bar, Baz> variant_type;
template<typename T> variant_type createInstance() { return variant_type(T()); }
typedef std::map<std::string, variant_type (*)()> map_type;
This technique allows for instantiation of different types from a single string.
In conclusion, C lacks a built-in mechanism for object instantiation from class name strings. However, using templates, runtime registration, or the Boost variant library, you can achieve similar functionality.
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