I am slightly confused, since it appears to mix concepts. I will try to shed some light on the two concepts.
Entity & Component
The entity component system is quite common in game engines, for example Unity implements it quite visibly. It tries to address the issue that simple inheritance does not work well in many cases. Such as mixing rendering and collision information, is a
Colidable also a
Rendarable? And since multiple inheritance is a scary thing for many and not suported in many languages, the only way out of this is the Entity/Component design. (Actually not the only solution, but that is a different issue.)
The design for entity component is quite simple, you have a class
Entity that takes multiple objects of type
Component. There will be multiple components that "do" something, like a
RidgidBodyMotion. As stated in the articles, the actual logic does not need to be implemented in the components themselves. The component just "flags" the entity for specific logic. It makes sense to delegate the actual work to be done in a tight loop in a system, maybe even in a different thread, but more to that later.
The the actual entity is composed. There are two basic ways to do this, in code or in data.
For example you compose objects in code that represent one "real world" object; the object of type
Goblin exists and it is derived from the class
Entity. The constructor from
Goblin will then create all components and register them on itself. Inheritance is now only done for high level logic, for example the
FastGoblin is derived from
Goblin and only has a different material and speed setting.
The second way to create objects is through data, that is you have some from of object description language. (Take something in XML or JSON) This will then create in a factory method something based on a given template in that is defined in this object description language.
Node Based Work Scheduling
It may make sense to have object that are fully defined, but the logic not being executed. Think about objects on the server or in the editor. On the server you do not want the rendering code to be in the way. So the basic approach is to create components that contain no data. The problem to solve is, how do you efficiently get things done, without iterating through the entire scene each frame and typecasting the objects around.
What your second link describes is basically a botched version of Designing the Framework of a Parallel Game Engine
There needs to be a way to schedule the work in an efficient way. The proposed solution is to have "nodes" that each do a specific task. The nodes are then are scheduled, by submitting them to either a work scheduler or a specific system.
Take for example rendering. You have an entity and it has a MeshRenderer component. This component will create a RenderNode and submit it to the RenderSystem. Then when the it is time to render the frame the RenderSystem will simply iterate over each RenderNode and call the it's display method. In the display method the actual rendering is done.
Alternatively the system, engine or entity can create nodes, based on specific component configurations. Take for example physics, the Entiy has the
RidgidBodyMovement component. The
PhysicsSystem seeing this configuration, create a
RidgidBodyNode that takes the two components as inputs and thus implements rigid body motion. Should the entity only have a
TriMeshColision component the PhysicSystem would then create a
StaticColiderNode to implement the behavior.
But like the construction mechanic for components from data, the nodes can also be created and attached to the entity through a factory function. This can either be part of the object definition or a rule based system.
Mapping this design into C++ should be straight forward. The rather difficult bit is to figure out a way how the different bits get connected, for example how the
MeshRenderer gets a access to the
RenderSystem so it can submit it's
RenderNode. But this can be solved with a singelton (shudder) or by passing a
Engine object around at the construction of the
Is this good design?
But the issue I want to address here is: Is this good design?
I have troubles with your second link (Games And Entity Systems), since I think the design will fall flat on it's nose quite quickly. This is true for other aspects like physics, but this will become quite inefficient when considering modern 3D rendering.
When you need to organize the scene spaceially to efficiently cull hidden objects, organize the objects into batches for lighting and reduce resource switching, the entire "list of nodes" concepts is moot, since you need a separate organisational structure anyway.
At this point you can let the components "talk" directly to the systems and each system has it's own unique specific API that is fit for it's specific purpose. The requirements of rendering, sound and input are each significantly different and tying to cram them into on API is futile.