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I add 2 objects to the QuadTree but when I look through the whole list for the objects I can only find 1 object. Why is this and what can I do to fix it?

from pygame import draw

class QuadTree(object):
    def __init__(self, box, current_level, max_level=3):# box (top_left_x, top_left_y, size_x, size_y)
        self.location = (box[0], box[1])
        self.size = (box[2], box[3])
        self.current_level = current_level
        self.max_level = max_level

        self.objects = []
        self.__setupchirldren__()

    def __setupchirldren__(self):
        self.top_right =        None
        self.top_left =         None
        self.bottom_right =     None
        self.bottom_left =      None

    def elements(self):
        if self.current_level == self.max_level:
            for x in self.objects:
                print x, x.rect
        else:
            if self.bottom_left != None:
                self.bottom_left.elements()
            if self.bottom_right != None:
                self.bottom_right.elements()
            if self.top_left != None:
                self.top_left.elements()
            if self.top_right != None:
                self.top_right.elements()

    def add_object(self, new_object, rect):
        if self.current_level == self.max_level:
            #print new_object, rect
            self.objects.append(new_object)
            #print self.objects
        else:
            half_size = (self.size[0]/2, self.size[1]/2)
            if rect.colliderect(self.location, half_size):
                self.top_left =         QuadTree((self.location[0], self.location[1], half_size[0], half_size[1]), self.current_level+1, self.max_level)
                self.top_left.add_object(new_object, rect)
            if rect.colliderect((self.location[0]+half_size[0], self.location[1]), half_size):
                self.top_right =        QuadTree((self.location[0]+half_size[0], self.location[1], half_size[0], half_size[1]), self.current_level+1, self.max_level)
                self.top_right.add_object(new_object, rect)
            if rect.colliderect((self.location[0], self.location[1]+half_size[1]), half_size):
                self.bottom_left =      QuadTree((self.location[0], self.location[1]+half_size[1], half_size[0], half_size[1]), self.current_level+1, self.max_level)
                self.bottom_left.add_object(new_object, rect)
            if rect.colliderect((self.location[0]+half_size[0], self.location[1]+half_size[1]), half_size):
                self.bottom_right =     QuadTree((self.location[0]+half_size[0], self.location[1]+half_size[1], half_size[0], half_size[1] ), self.current_level+1, self.max_level)
                self.bottom_right.add_object(new_object, rect)

    def draw(self, screen):
        #if self.current_level == self.max_level:
        draw.line(screen, (255, 0, 0), self.location, (self.location[0]+self.size[0], self.location[1]))
        draw.line(screen, (255, 0, 0), self.location, (self.location[0], self.location[1]+self.size[1]))
        draw.line(screen, (255, 0, 0), (self.location[0]+self.size[0], self.location[1]+self.size[1]), (self.location[0]+self.size[0], self.location[1]))
        draw.line(screen, (255, 0, 0), (self.location[0]+self.size[0], self.location[1]+self.size[1]), (self.location[0], self.location[1]+self.size[1]))
        if self.current_level != self.max_level:
            if self.bottom_left != None:
                self.bottom_left.draw(screen)
            if self.bottom_right != None:
                self.bottom_right.draw(screen)
            if self.top_left != None:
                self.top_left.draw(screen)
            if self.top_right != None:
                self.top_right.draw(screen)

    def get_elements(self, rect):
        #ret = self.objects
        if self.current_level == self.max_level:
            #print self.objects
            return self.objects
        else:
            half_size = (self.size[0]/2, self.size[1]/2)
            if self.top_left!= None and rect.colliderect((self.location, half_size)):
                return self.top_left.get_elements(rect)
                #for x in self.top_left.get_elements(rect):
                #   ret.append(x)
            if self.top_right!= None and rect.colliderect(((self.location[0]+self.size[0]/2, self.location[1]), half_size)):
                return self.top_right.get_elements(rect)
                #for x in self.top_right.get_elements(rect):
                #   ret.append(x)
            if self.bottom_left!= None and rect.colliderect(((self.location[0], self.location[1]+self.size[1]/2), half_size)):
                return self.bottom_left.get_elements(rect)
                #for x in self.bottom_left.get_elements(rect):
                #   ret.append(x)
            if self.bottom_right!= None and rect.colliderect(((self.location[0]+self.size[0]/2, self.location[1]+self.size[1]/2), half_size)):
                return self.bottom_right.get_elements(rect)
                #for x in self.bottom_right.get_elements(rect):
                #   ret.append(x)
            #print ret
        return []

When I insert objects it prints out

platform.Platforms object at 0x0236F950 platform.Platforms object at 0x0236F950 platform.Platforms object at 0x0236F950 platform.Platforms object at 0x0236F950 platform.Platforms object at 0x0236FAB0 platform.Platforms object at 0x0236FAB0 platform.Platforms object at 0x0236FAB0 platform.Platforms object at 0x0236FAB0

which is good I want two distinct objects in mutable trees but when I call it it only has the second one in the list

so i made a function

def elements(self):
    if self.current_level == self.max_level:
        for x in self.objects:
            print x, x.rect
    else:
        if self.bottom_left != None:
            self.bottom_left.elements()
        if self.bottom_right != None:
            self.bottom_right.elements()
        if self.top_left != None:
            self.top_left.elements()
        if self.top_right != None:
            self.top_right.elements()

which prints out

platform.Platforms object at 0x02320A70 rect(350, 630, 110, 110) platform.Platforms object at 0x02320A70 rect(350, 630, 110, 110) platform.Platforms object at 0x02320A70 rect(350, 630, 110, 110) platform.Platforms object at 0x02320A70 rect(350, 630, 110, 110)

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closed as not a real question by JBernardo, larsks, Óscar López, Perception, Graviton Apr 24 '12 at 3:21

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

5  
I read this twice and couldn't find a question either time. –  jli Apr 22 '12 at 2:11
    
I updated the post I would love it if you could help my I'm stumped –  GeneralZero Apr 22 '12 at 2:18
    
Can you post the rest of the quadtree class? Also it's not clear what is wrong with your output, and what it is you expect (partially because the __repr__'s are a bit hard to read, and differ between the two examples) –  dbr Apr 22 '12 at 2:23
    
@dbr I add 3 elements to the quadtree but when ever i look at the tree there is only one element in the tree –  GeneralZero Apr 22 '12 at 2:24
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1 Answer 1

up vote 2 down vote accepted

Your add_object class makes a new lower-level quadtree every time, even if there is already one there.

I was going to suggest this on your earlier quadtree question (pretty sure that was you) but you removed it before I had a chance: you'll probably be better off if the QuadTree class has a method that finds-or-creates the appropriate sub-tree given a location (what you call rect in both add_objects and get_elements). Note that this assumes that each object lives entirely within one sub-tree, which is true for points but not for arbitrary rectangles. (The most obvious case is that a very large rectangle—one that covers the entire field—occupies all four sub-trees of any given level of quadtree.)

Assuming that the logic in get_elements is basically correct, for instance, you might define something like:

def find_or_create(self, rect, create = False):
    "find or create the sub-tree that contains the given point"
    if self.current_level == self.max_level:
        return self # we contain it
    half_size = (self.size[0]/2, self.size[1]/2)
    if rect.collide_rect((self.location, half_size)):
        name = 'top_left'
        location = self.location
    else if rect.collide_rect(...):
        name = 'top_right'
        location = ... # top right location
    else ... [as before, each time setting name and location]
    # now, after deciding which sub-quadrant applies...
    quad = getattr(self, name)
    # if the sub-quadrant already exists, recurse
    if quad:
        return quad.find_or_create(rect, create)
    # otherwise, if we are supposed to create it, do that
    if create:
        quad = QuadTree(...) # this is why you also have to compute "location"
        setattr(self, name, quad)
    return quad # return the new quadtree, or None, as appropriate

This gives you a way to find the containing quadtree (returning None if it does not exist) or, for adding objects, creating it (returning the existing max-level quadtree, or creating a new max-level quadtree in the appropriate quadrant).

The getattr and setattr operations let you use the name you computed to get and set self.top_left, self.top_right, and so on.

Adding an object is then pretty trivial:

    quad = self.find_or_create(rect, True)
    quad.objects.append(new_object)

There's a better way to handle the location computation-and-test as well but I leave that as an exercise. (And, of course, if rects can span multiple sub-trees—if they are not points—you'll need to compute a list of all the appropriate sub-trees, rather than the single appropriate top-left / top-right / bottom-left / bottom-right sub-tree.)

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I feel so dumb. Thanks for pointing that out for me –  GeneralZero Apr 22 '12 at 5:00
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