This is for a small game project with SDL on MinGW/Windows.
I am working on a physics engine, and my idea was to have a Physics::Object
, which all physical objects should derive from and it registers itself with a global Physics::System
class (it's a monostate pattern) so that the user doesn't need to track which objects are included in physics calculations and just needs to call a function like Physics::System::PerformTimestepCalculation(double dt)
.
This works fine, and I even implemented it using a single derived class Physics::Circle
, which is a 2d circle. I was pretty happy with the predictive collision detection, even though I still need to optimise it.
Anyway, I ran into trouble when I started adding other primitives to include in the calculation, e.g. line. The Physics::System::PerformTimestepCalculation(double dt)
became littered with calls to Object::GetID()
or similar functions (may way to avoid dynamic_cast<>), but I feel dirty.
I did a bit of reading and realised that my the elements of my hierarchy are not substitutable (i.e. the collision between two circles is very different between the collision of two lines).
I like the way my Physics::Objects
"self register" with the System
class so they automatically get included in the calculations, and I don't really want to lose this.
There must be some other sensible design paths. How can I better redesign things so non-substitutable objects do not get in the way?
Edit FYI: In the end I have broken away entity and shape properties, similar to how it was described in the accepted answer, and similar to an entity-component-system model. It means I still have the yuk logic of "is this a circle or a line, and is that a line or a circle?", but I'm no longer pretending that polymorphism helps me here. It also means I use some sort of factory and can have multiple calculation worlds happening at once!