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I've found this answer that is coded in C# to plot nodes in a radial tree and gained a lot of information. The problem is that I am having a hard time reading C# and can't exactly figure out the entirety of what's going on. The goal is to try and render a radial tree like the image below, into a game and dynamically show and hide the points based on progress. The majority of radial trees I see use networkx or matplotlib, but I don't want to bloat the game with packages when I only need to plot them using the game engines x and y positions.I then also tried to look at the algorithm frome the referenced answer and got even more info but not everything seems clear to me as I don't know all the math talk in terms of python.

My tree is based on anytree and printed out, my nodes come out like so in a list, each one being a Node object with data inside.

   for pre, fill, node in RenderTree(Node('1')):


       if Depth > 0:
           list_of_p_c.append((node.name, node.data['Parent']))
       else:
           list_of_p_c.append((1, 0))
       Depth += 1
   print list_of_p_c
   >> [(1, 0), ("'1.1'", '1'), ("'1.2'", '1'), ("'1.2.1'", '1.2'), ("'1.2.2'", '1.2'), ("'1.2.3'", '1.2'),
    ("'1.2.3.1'", '1.2.3'), ("'1.2.3.2'", '1.2.3'), ("'1.2.3.2.1'", '1.2.3.2'), ("'1.2.3.2.2'", '1.2.3.2'),
    ("'1.3'", '1')]

---------------------------------------------------

EDIT 2

def RadialPositions(node, alfa=0, beta=2*math.pi, delta=0, RadialPoints=RadialPoint):

    if node.is_root:
        # (x,y)
        node.positions = (0,0)
        print "This Node is root, positions are {} ".format(node.positions)

        def addpoint():
            x = 0
            y = 0
            ParentPoint = None

    depthOfNode = node.depth
    theta = alfa
    radius = math.pi + (delta * depthOfNode)
    number_chuldrend_of_node = len(node.children)

    # print "There are " + str(number_chuldrend_of_node) + " children " + "radius is " + "%s and depth is %s" % (radius, depthOfNode)
    for child_node in node.children:
        print "Children: %s" % len(child_node.children)
        leaves = len(child_node.leaves)


        def convert_theta(x):
            print "Beta is %s" % beta, "Alpha is %s" % alfa
            return  x * (beta - alfa)
        mi = theta + convert_theta(leaves)
        x = radius * math.cos((theta + mi) / 2.0)
        y = radius * math.sin((theta + mi) / 2.0)
        child_node.positions = (x, y)
        print child_node
        if (len(child_node.children) > 0):
            child_node.positions = (x, y)
            RadialPositions(child_node, theta, mi)
        theta = mi

I have been successful in giving each node a position and then recursively giving the children a point as well. Currently though the x and y postions are in the correct depth, but they also come out in a straight line. I have put the results below. When up to the depth of 4, the line also seems to put some points on the opposite side. I'm most likely missing something at this point but don't know what it is. The translation from C# to Python seem to have worked well but I don't understand some points of the previous answer.

enter image description here

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  • The algorithm you quoted is recursive, your code is not.
    – gboffi
    Feb 25, 2020 at 12:18
  • @gboffi The nodes are recursive, I have updated the question with the tree printing each node with it's children
    – Khailz
    Feb 25, 2020 at 12:23
  • Of course a tree is recursive, what is not recursive is your implementation of radial_positions ...
    – gboffi
    Feb 25, 2020 at 12:26
  • Do you mean the positions being attached to each node? I tried my best at translating what I was seeing to python but only got so far
    – Khailz
    Feb 25, 2020 at 12:29
  • The question you have linked has an implementation in C# (and not in C++ as you mentioned) of RadialPositions, under the heading My implementation of algorithm — well, if you scroll to the end of the code box immediately below said heading you will see that the procedure RadialPositions calls the procedure RadialPositions and this is what denotes a recursive algorithm. I cannot see anything similar in your code...
    – gboffi
    Feb 25, 2020 at 12:38

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