# Generating Box2D body(collision map) from tilemap efficiently

I am working on a platformer game that will use tile maps, which I don't know if is a good idea!

I've made a neat tile map editor with tools for setting a spawn point etc. but now that I want to be able to test play the game after editing map and for future use I need of course integrate physics which I've done with Box2D which comes with LibGDX!

I am creating a method to create a collision map from tile map which has data if tile is collideable or not!

So I came up with this great idea:

loop through the map and if we find a colliding tile loop through its neighbor tiles and see if they're colliding too, and do this til noncolliding tile is found when we set width and height for the colliding rectangle

after we got bunch of rectangle I sort them in order from biggest square to smallest so we get biggest pieces and I add the rectangles to final list and check against the final rect if any of them overlaps with current body so I don't have overlapping bodys

But you know, code tells more than 1000 words, right?

public void createBody() {
List<Rectangle> allRects = new ArrayList<Rectangle>();
for(int x = 0; x < info.getWidth(); x++) {
for(int y = 0; y < info.getHeight(); y++) {
if(tiles[x][y].getInfo().isColliding()) {
int width = 1;
int height = 1;

//loop through neighbors horizontally
for(int i = 0; i < info.getWidth() - x; i++) {
if(!tiles[x + i][y].getInfo().isColliding()) {
//if tile is not clipped, we set width to i which is current x offset

width = i;
break;
}
}

//only if width is bigger than zero can the rect have any tiels..
if(width > 0) {
//loop through neighbors horizontally
for(int j = 0; j < info.getHeight() - y; j++) {
//loop though neigbors vertizally
for(int i = 0; i < width; i++) {
//check if tile is not colliding
if(!tiles[x + i][y + j].getInfo().isColliding()) {
//and if so, we set height to j which is current y offset
height = j;

//breaking bad aka leaving both loops
break;
}
}
break;
}
}
}
if(width * height > 0)
}
}
}

Collections.sort(allRects, new Comparator<Rectangle>() {

@Override
public int compare(Rectangle o1, Rectangle o2) {
Integer o1Square = o1.width * o1.height;
Integer o2Square = o2.width * o2.height;
return o2Square.compareTo(o1Square);
}
});

List<Rectangle> finalRects = new ArrayList<Rectangle>();
mainloop:
for(Rectangle rect: allRects) {
for(Rectangle finalRect: finalRects) {
if(finalRect.contains(rect)) {
continue mainloop;
}
}
}

for(Rectangle rect: finalRects) {
PolygonShape polyShape = new PolygonShape();
polyShape.setAsBox((float)rect.getWidth() / 2, (float)rect.getHeight() / 2, Vector2.tmp.set((float)rect.getCenterX(), (float)rect.getCenterY()), 0f);

mapBody.createFixture(polyShape, 1);
polyShape.dispose();
}

}

however this sill seems pretty inefficient because for some reasons its still creating smaller fixtures than it could be possible, for example in upper right corner

also its creating single fixtures in the corners of the center rectangle and I can't figure out why!

Is the whole idea all inefficient, and should I use other method or manually create collision maps or what could be the best idea?

Originally each tile was its own fixture which caused weird bugs on their edges as expected

-
While we talking about inefficiency, in the 'compareTo' method, you perform a lot of autoboxing. Is 'Rectangle.width' int or Integer ? – jellyfication Jan 25 '13 at 15:06
– Ruuhkis Jan 26 '13 at 21:52
I tried your compare method and it turns out to be 2x more expensive than similar compare with only ints. – jellyfication Jan 27 '13 at 17:54

First off, a custom tile mapping tool is a great idea on the surface, but you're reinventing the wheel.