I’m trying to make a custom collision engine for academic purposes and i'm stuck on a general c++ programming issue I already have all the geometries which work properly and for the scope of the question i have this function:
template<typename lhs_geometry, typename rhs_geometry>
bool intersects( const lhs_geometry& lhs, const rhs_geometry& rhs )
{
//returns true if does objects intersects
//(assume this functions works perfectly with every geometry type)
}
I also have the following class which I need to finish implementing
template<typename geometry_type>
class collidable_object
{
public:
explicit collidable_object( geometry_type& geometry ) :
m_geometry( geometry )
{
}
~collidable_object()
{
}
private:
geometry_type& m_geometry;
};
Where my issue rises is when I want to create a list of collidable_object
and test them for intersection 2 by 2.
I have made some research on Google and found having a base class for collidable_object
will allow me to store objects into the list. But after that how do I test the object depending on their specific geometries?
I have tried to implement the visitor pattern but I get stuck every time because i don't want to hardcode every possible geometry type since I will always just call intersetcs()
.
I also found an article on cooperative visitor but this seems way to complicated.
Does anyone have a simple and efficient solution?
EDIT: the reason I wanted to avoid having a list of geometries is because I want it to be relatively easy to add new geometries without having to find files in the arborescence.
EDIT2: Here is more information on the intersetcs
method : the intersects method is based on tag dispatching to find the right geometry but almost all convex shape use the GJK algorithm which only require that the object can return the point furthest in a given direction. For non-convex shapes, the shapes are fragmented into convex sub-shapes and the process restarts.
there is no uniform criteria to see if intersects
will be able to process a given shape most use furthest_along
but sphere on sphere does not and sphere agragations would also not require the use of furthest_along
Additional information: I use VS2012 and C++11
Circle
geometry, and does not know of the third. The third definesRectangle
geometry, and does not know of the second. Where does the runtime code that representsCircle
intersectRectangle
go in this scenario?