4

So I'm learning C++ and want to write an entity-component system. For that I need to know what type a component has when i add it to the entity. In java i would just do something like this:

Class<?> someClass = myComponent.class;

Is there something equivalent I can do in C++? I tried typeid(myComponent) but that doesn't work in situations like this.

ExtComponent* extended = new ExtComponent();
Component* base = dynamic_cast<Component>(extended);
std::cout << typeid(base).name();

This returns "class Component" but i would want something that returns "class ExtComponent" in such a situation. How do I do this.

  • What you want is std::cout << typeid(*base).name(). base is a Component*, and will never change. What base points to can change types, based on the underlying virtual type. Also, your dynamic cast requires a dynamic_cast<Component*> – Dave S Jun 1 '16 at 11:36
  • You don't need dynamic_cast to upcast. Component* base = extended; is sufficient. – eerorika Jun 1 '16 at 11:39
  • @qwipo happy to help. Other things to note are: Creating a dynamic object with new is rarely a good idea. Prefer automatic variables. Also, type_info::name returns an implementation defined string. It could be "class ExtComponent" or it could be "_ZN9ExtComponent" or anything else. You cannot rely on the string being identical across different compilers, or that the name is easily readable. – eerorika Jun 1 '16 at 11:47
  • You are confusing TypeName.class and referenceVariable.getClass(). Only the latter is capable of returning the actual type of a Java object. – Holger Jun 1 '16 at 11:51
6

If I understand you correctly you want to get dynamic type of object. (not type of variable itself, but to what that variable (really) refers)

Typeid will work because:

N3337 5.2.8/2:

When typeid is applied to a glvalue expression whose type is a polymorphic class type (10.3), the result refers to a std::type_info object representing the type of the most derived object (1.8) (that is, the dynamic type) to which the glvalue refers[...]

So, just add some virtual function (of alternatively virtual base class) to make, and their will do what you want.

Also you'll have to apply typeid to object, not pointer (because that would return type_info for pointer, not object):

Base *b = new Base;
...
typeid(*b); //not typeid(b)
  • N3337? Why not N4594? – Kerrek SB Jun 1 '16 at 11:41
  • Okay thank you very much. – qwipo Jun 1 '16 at 11:42
2

When dealing with types, everything must be resolved at compile time. You can't resolve them at runtime. That's how C++works. To do things that change the type of an expression, you have to deal with templates.

If we want to make a container that store a bunch of instance of various types, you need a way to remember which type it was. Since template instantiate a different function with each one their own address, we can use it to generate a unique id for a type:

template<typename>
void type_id(){}

using type_id_t = void(*)();

Now, you can use this to store and retrieve in a safe way. Here I will use std::any, but you can replace it by boost::any if you don't have access to C++17 features.

struct Entity {
    template<typename T>
    void assign(T component) {
        components[type_id<T>] = component;
    }

    template<typename T>
    T& retrieve() {
        return std::any_cast<T>(components[type_id<T>]);
    }

private:
    std::map<type_id_t, std::any> components;
};

Here you go. You can try out your entity like this:

Entity entity;

entity.assign(MyClass{});

MyClass& mc = entity.retreive<MyClass>();

This is a rubbish and simple implementation of entities. Usually, you try to keep entities and components packed into memory, and manage the lifetime of them using an entity manager.

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