# What is the best Data Structure for my 2d game?

I have been writing a 2d top-down Java RPG at my spare time for the last 4 months now. Some days ago I started to look at some A* implementations in order to apply it in my game. All the implementations I found were based on a grid, which would hold the squares to which entities can potentially walk. The problem is my entities walk freely, with really high resolution float increments, which does not allow me to use a grid. The data structure at which the entities are stored is a simple ArrayList.

So I started to search info about QuadTrees because they may help me implementing the A* algorithm (is that right?). I can surely say that I looked at around 15 implementations in different languages and read a lot about it. There would always be someone saying it's bad for dynamic entities and other people saying it's ok (alongside with videos on youtube which show it's actually ok). So I implemented my own QuadTree and I think I failed miserably! At every rendering loop, I only want to draw or update entities that are inside the screen area, so I wrote a Range Query algorithm that returns the tree entities inside a given range. With 20 entities I get only 5 fps. (I also want to use Range Query on stuff like collision detection, illumination and other interactions between entities [which do already work using lists])

So now I started to think wether to make this Tree better or to start with a whole new data structure. Is the quadtree the best choice for the purpose (+ A* pathfinding)? If so, what is wrong with my range query:

``````public ArrayList<Entity> query(ArrayList<Entity> returnObjects, double x0, double y0, double x1, double y1) {

int indexA = getIndex(x0, y0); //this is the subnode index
int indexB = getIndex(x1, y1); //where NE == 0; NW == 1; SE == 3; SW == 2

if (nodes[0] != null) {
for (int count = indexA; count <= indexB; count++) {
nodes[count].query(returnObjects, x0, y0, x1, y1);
}
}