# Algorithms for converting flat list of objects with size/position to tree?

I have a list of objects like this:

``````[
Rectangle(20, 30, 100, 200), // x, y, width, height
Rectangle(50, 40, 50, 50),
Text(60, 50, 'Text')
]
``````

For the sake of this example, the first Rectangle is the bottom-most object, Text is top-most. Based on the position/size, the second Rectangle should be a child of the first as it is entirely contained within the first and on top. The text object should be a child of the second Rectangle for the same reasons.

I'm looking for discussion or a general pointer toward an algorithm to efficiently do this. I'm building my own, but there is likely something clever I'm missing.

EDIT: Here is my implementation in coffeescript:

``````obj =
_isParent: (parent, child) ->
pb = parent.getBounds() # this returns a rectangle
return pb.contains(child.getBounds())

generateHiearchy: (object, index, objects, cache) ->
return cache[object._id] if cache[object._id]

exObject = new Node(object)
cache[object._id] = exObject

for i in [index+1...objects.length]
potentialParent = objects[i]
if @_isParent(potentialParent, object)
exParent = @generateHiearchy(potentialParent, i, objects, cache)
break

exObject

generateTree: (objects) ->
return [] unless objects and _.size(objects)

cache = {}
objects = @sort(objects)

for i in [0...objects.length]
object = objects[i]
exobj = @generateHiearchy(object, i, objects, cache)

(val for k, val of cache when not val.parent)
``````

Basically, I sort it so the top-most is at the array head, then walk the array. On each iteration, I recurse from the current node all the way to the top of the hierarchy, caching nodes along the way.

-
Then it would look more like [Rectangle(20,30,100,200,[Rectangle(50,40,50,50,[Text(60,50,'Text',null])])], if you simply want to add a child list as a last parameter, and deal with it that way. –  PlayDeezGames Mar 5 '12 at 20:24
Just implement it already. Don't fall into the analysis-design-trap; accept that you will never be able to come up with the perfect design at first go. It is an iterative process whereby you refine and optimize your algorithm. –  slashmais Mar 5 '12 at 20:29
@slashmais, I edited with my implementation. –  BenO Mar 5 '12 at 23:21

To tailor this data structure to your needs, you can find a way to represent `Text` objects as a Rectangle (or some other multi-dimensional object compatible with R-trees).