For a project I'm working on I'm trying to write some code to detect collisions between non-point particles in a 2D space. My goal is to try to detect collision for a few thousand particles at least a few times per time step which I know is a tall order for python. I've followed this blog post which implements a quadtree to significantly reduce the number pairwise checks I need to make. So where I believe I'm running into issues is this function:
def get_index(self, particle):
index = -1
bounds = particle.aabb
v_midpoint = self.bounds.x + self.bounds.width/2
h_midpoint = self.bounds.y + self.bounds.height/2
top_quad = bounds.y < h_midpoint and bounds.y + bounds.height < h_midpoint
bot_quad = bounds.y > h_midpoint
if bounds.x < v_midpoint and bounds.x + bounds.width < v_midpoint:
if top_quad:
index = 1
elif bot_quad:
index = 2
elif bounds.x > v_midpoint:
if top_quad:
index = 0
elif bot_quad:
index = 3
return index
This function from my initial profiling is the bottleneck and I need it to be blistering fast, because of its high call count. Originally I was just supplying an object axis-aligned bounding box which was working almost at the speed I needed, then realized I had no way of determining which particles may actually be colliding. So now I'm passing in a list of particles to my quadtree constructor and just using the class attribute aabb to get my bounds.
Is there someway I could pass something analogues to a object pointer instead of the whole object? Additionally are there other recommendation to optimize this above code?