19

I want to print my binary tree in the following manner:

                   10

               6        12

             5   7    11  13 

I have written code for insertion of nodes but can't able to write for printing the tree. so please help on this . My code is :

class Node:
    def __init__(self,data):
       self.data=data
       self.left=None
       self.right=None
       self.parent=None

class binarytree:
   def __init__(self):
     self.root=None
     self.size=0

   def insert(self,data):
     if self.root==None:
        self.root=Node(data)

    else:
        current=self.root
        while 1:
            if data < current.data:
                if current.left:
                    current=current.left
                else:
                    new=Node(data)
                    current.left=new
                    break;
            elif data > current.data:
                if current.right:
                    current=current.right
                else:
                    new=Node(data)
                    current.right=new
                    break;
            else:
                break



 b=binarytree()  
2
  • 2
    You could add a method to your Node class that counts counts how many times you can return a parent before you get None or your root. – Brendan Molloy Dec 1 '15 at 4:59
  • Just FYSA In BASH, I used a .txt file approach and tried for printing the same from any root node here: stackoverflow.com/a/67341334/1499296 – AKS Apr 30 at 23:00
19

What you're looking for is breadth-first traversal, which lets you traverse a tree level by level. Basically, you use a queue to keep track of the nodes you need to visit, adding children to the back of the queue as you go (as opposed to adding them to the front of a stack). Get that working first.

After you do that, then you can figure out how many levels the tree has (log2(node_count) + 1) and use that to estimate whitespace. If you want to get the whitespace exactly right, you can use other data structures to keep track of how many spaces you need per level. A smart estimation using number of nodes and levels should be enough, though.

62

Here's my attempt, using recursion, and keeping track of the size of each node and the size of children.

class BstNode:

    def __init__(self, key):
        self.key = key
        self.right = None
        self.left = None

    def insert(self, key):
        if self.key == key:
            return
        elif self.key < key:
            if self.right is None:
                self.right = BstNode(key)
            else:
                self.right.insert(key)
        else: # self.key > key
            if self.left is None:
                self.left = BstNode(key)
            else:
                self.left.insert(key)

    def display(self):
        lines, *_ = self._display_aux()
        for line in lines:
            print(line)

    def _display_aux(self):
        """Returns list of strings, width, height, and horizontal coordinate of the root."""
        # No child.
        if self.right is None and self.left is None:
            line = '%s' % self.key
            width = len(line)
            height = 1
            middle = width // 2
            return [line], width, height, middle

        # Only left child.
        if self.right is None:
            lines, n, p, x = self.left._display_aux()
            s = '%s' % self.key
            u = len(s)
            first_line = (x + 1) * ' ' + (n - x - 1) * '_' + s
            second_line = x * ' ' + '/' + (n - x - 1 + u) * ' '
            shifted_lines = [line + u * ' ' for line in lines]
            return [first_line, second_line] + shifted_lines, n + u, p + 2, n + u // 2

        # Only right child.
        if self.left is None:
            lines, n, p, x = self.right._display_aux()
            s = '%s' % self.key
            u = len(s)
            first_line = s + x * '_' + (n - x) * ' '
            second_line = (u + x) * ' ' + '\\' + (n - x - 1) * ' '
            shifted_lines = [u * ' ' + line for line in lines]
            return [first_line, second_line] + shifted_lines, n + u, p + 2, u // 2

        # Two children.
        left, n, p, x = self.left._display_aux()
        right, m, q, y = self.right._display_aux()
        s = '%s' % self.key
        u = len(s)
        first_line = (x + 1) * ' ' + (n - x - 1) * '_' + s + y * '_' + (m - y) * ' '
        second_line = x * ' ' + '/' + (n - x - 1 + u + y) * ' ' + '\\' + (m - y - 1) * ' '
        if p < q:
            left += [n * ' '] * (q - p)
        elif q < p:
            right += [m * ' '] * (p - q)
        zipped_lines = zip(left, right)
        lines = [first_line, second_line] + [a + u * ' ' + b for a, b in zipped_lines]
        return lines, n + m + u, max(p, q) + 2, n + u // 2


import random

b = BstNode(50)
for _ in range(50):
    b.insert(random.randint(0, 100))
b.display()

Example output:

                              __50_________________________________________ 
                             /                                             \
    ________________________43_                   ________________________99
   /                           \                 /                          
  _9_                         48    ____________67_____________________     
 /   \                             /                                   \    
 3  11_________                   54___                         ______96_   
/ \            \                       \                       /         \  
0 8       ____26___________           61___           ________88___     97  
         /                 \         /     \         /             \        
        14_             __42        56    64_       75_____       92_       
       /   \           /                 /   \     /       \     /   \      
      13  16_         33_               63  65_   72      81_   90  94      
             \       /   \                     \         /   \              
            25    __31  41                    66        80  87              
                 /                                     /                    
                28_                                   76                    
                   \                                                        
                  29                                                        
10
  • However, it can't display an already created BT, can it? Even using the 'insert()' function, new nodes are inserted according to their value not as one would like to. – Apostolos Feb 25 '20 at 8:08
  • @Apostolos not sure I understand your comment. How else would one like to insert nodes? – J. V. Feb 27 '20 at 4:26
  • Example: a BT set as follows: tree = (50, (30, (20, (10, None, None), None), (40, None, None)), (80, (70, (60, None, (61, None, (62, None, None))), None), (90, None, None))). It is fully defined, i.e. all left and right positions of the children's are set (even if empty). Does this setting make sense to you? – Apostolos Mar 6 '20 at 18:15
  • The tree structure depends on the order in which you added elements, but in your case if you add them the way you listed them you get what you want: b = BstNode(50); for n in (30, 20, 10, 40, 80, 70, 60, 61, 62, 90): b.insert(n); b.display() – J. V. Mar 7 '20 at 21:10
  • Of course it doesn't show None but you can modify _display_aux to show it if that's what you want – J. V. Mar 7 '20 at 21:11
9
class Node(object):
    def __init__(self, value, left=None, right=None):
        self.value = value
        self.left = left
        self.right = right
    
def printTree(node, level=0):
    if node != None:
        printTree(node.left, level + 1)
        print(' ' * 4 * level + '->', node.value)
        printTree(node.right, level + 1)

t = Node(1, Node(2, Node(4, Node(7)),Node(9)), Node(3, Node(5), Node(6)))
printTree(t)

output:

            -> 7
        -> 4
    -> 2
        -> 9
-> 1
        -> 5
    -> 3
        -> 6
6

I enhanced Prashant Shukla answer to print the nodes on the same level in the same line without spaces.

class Node(object):
    def __init__(self, value, left=None, right=None):
        self.value = value
        self.left = left
        self.right = right

    def __str__(self):
        return str(self.value)


def traverse(root):
    current_level = [root]
    while current_level:
        print(' '.join(str(node) for node in current_level))
        next_level = list()
        for n in current_level:
            if n.left:
                next_level.append(n.left)
            if n.right:
                next_level.append(n.right)
        current_level = next_level

t = Node(1, Node(2, Node(4, Node(7)), Node(9)), Node(3, Node(5), Node(6)))

traverse(t)
1
  • I am confused about current_level that is overwritten in the for loop over the elements of current_level! Can you explain how this piece of code works? – Vladislavs Dovgalecs Jan 30 '18 at 6:24
5

I am leaving here a stand-alone version of @J. V.'s code. If anyone wants to grab his/her own binary tree and pretty print it, pass the root node and you are good to go.

If necessary, change val, left and right parameters according to your node definition.

def print_tree(root, val="val", left="left", right="right"):
    def display(root, val=val, left=left, right=right):
        """Returns list of strings, width, height, and horizontal coordinate of the root."""
        # No child.
        if getattr(root, right) is None and getattr(root, left) is None:
            line = '%s' % getattr(root, val)
            width = len(line)
            height = 1
            middle = width // 2
            return [line], width, height, middle

        # Only left child.
        if getattr(root, right) is None:
            lines, n, p, x = display(getattr(root, left))
            s = '%s' % getattr(root, val)
            u = len(s)
            first_line = (x + 1) * ' ' + (n - x - 1) * '_' + s
            second_line = x * ' ' + '/' + (n - x - 1 + u) * ' '
            shifted_lines = [line + u * ' ' for line in lines]
            return [first_line, second_line] + shifted_lines, n + u, p + 2, n + u // 2

        # Only right child.
        if getattr(root, left) is None:
            lines, n, p, x = display(getattr(root, right))
            s = '%s' % getattr(root, val)
            u = len(s)
            first_line = s + x * '_' + (n - x) * ' '
            second_line = (u + x) * ' ' + '\\' + (n - x - 1) * ' '
            shifted_lines = [u * ' ' + line for line in lines]
            return [first_line, second_line] + shifted_lines, n + u, p + 2, u // 2

        # Two children.
        left, n, p, x = display(getattr(root, left))
        right, m, q, y = display(getattr(root, right))
        s = '%s' % getattr(root, val)
        u = len(s)
        first_line = (x + 1) * ' ' + (n - x - 1) * '_' + s + y * '_' + (m - y) * ' '
        second_line = x * ' ' + '/' + (n - x - 1 + u + y) * ' ' + '\\' + (m - y - 1) * ' '
        if p < q:
            left += [n * ' '] * (q - p)
        elif q < p:
            right += [m * ' '] * (p - q)
        zipped_lines = zip(left, right)
        lines = [first_line, second_line] + [a + u * ' ' + b for a, b in zipped_lines]
        return lines, n + m + u, max(p, q) + 2, n + u // 2

    lines, *_ = display(root, val, left, right)
    for line in lines:
        print(line)

print_tree(root)

          __7 
         /   \
     ___10_  3
    /      \  
  _19     13  
 /   \        
 9   8_       
/ \    \      
4 0   12 
3
  • nice work! you've got a bug in your display() args however. Should look like this: python def print_tree(root, val="val", left="left", right="right"): def display(root, val=val, left=left, right=right): – NoPlaceLike127.0.0.1 Mar 15 at 15:14
  • @NoPlaceLike127.0.0.1 thanks ! Fixed it. – BcK Mar 16 at 14:14
  • @BcK hi, I've just found your printing def, as I also have to implement this kind of printing, but I have a problem with changing parameters - you said we'd take care of left and right but I don't know what to change it for. Could you check that in your free time?: stackoverflow.com/questions/67530220/… – squall May 14 at 7:33
0

Similar question is being answered over here This may help following code will print in this format

>>> 
1
2 3
4 5 6
7
>>> 

Code for this is as below :

class Node(object):
  def __init__(self, value, left=None, right=None):
   self.value = value
   self.left = left
   self.right = right

def traverse(rootnode):
  thislevel = [rootnode]
  a = '                                 '
  while thislevel:
    nextlevel = list()
    a = a[:len(a)/2]
    for n in thislevel:
      print a+str(n.value),
      if n.left: nextlevel.append(n.left)
      if n.right: nextlevel.append(n.right)
      print
      thislevel = nextlevel

t = Node(1, Node(2, Node(4, Node(7)),Node(9)), Node(3, Node(5), Node(6)))

traverse(t)

Edited code gives result in this format :

>>> 
              1
      2         3
  4     9     5     6
7
>>> 

This is just a trick way to do what you want their maybe a proper method for that I suggest you to dig more into it.

3
  • thanks for the answer but i want to print my tree in the format i specified above(hierarchial structure) – user2762315 Dec 1 '15 at 5:54
  • I've edited my original answer , hope this solves your purpose. – Prashant Shukla Dec 1 '15 at 6:39
  • This is a copy-pasted answer from the linked question, and it does not even compile in Python, as it is written in C. Downvoted. – alexlomba87 May 31 '20 at 9:27
0
class magictree:
    def __init__(self, parent=None):
        self.parent = parent
        self.level = 0 if parent is None else parent.level + 1
        self.attr = []
        self.rows = []

    def add(self, value):
        tr = magictree(self)
        tr.attr.append(value)
        self.rows.append(tr)
        return tr

    def printtree(self):
        def printrows(rows):
            for i in rows:
                print("{}{}".format(i.level * "\t", i.attr))
                printrows(i.rows)

        printrows(self.rows)

tree = magictree()
group = tree.add("company_1")
group.add("emp_1")
group.add("emp_2")
emp_3 = group.add("emp_3")

group = tree.add("company_2")
group.add("emp_5")
group.add("emp_6")
group.add("emp_7")

emp_3.add("pencil")
emp_3.add("pan")
emp_3.add("scotch")

tree.printtree()

result:

['company_1']
    ['emp_1']
    ['emp_2']
    ['emp_3']
        ['pencil']
        ['pan']
        ['scotch']
['company_2']
    ['emp_5']
    ['emp_6']
    ['emp_7']
0

As I came to this question from Google (and I bet many others did too), here is binary tree that has multiple children, with a print function (__str__ which is called when doing str(object_var) and print(object_var)).

Code:

from typing import Union, Any

class Node:
    def __init__(self, data: Any):
        self.data: Any = data
        self.children: list = []
    
    def insert(self, data: Any):
        self.children.append(Node(data))

    def __str__(self, top: bool=True) -> str:
        lines: list = []
        lines.append(str(self.data))
        for child in self.children:
            for index, data in enumerate(child.__str__(top=False).split("\n")):
                data = str(data)
                space_after_line = "   " * index
                if len(lines)-1 > index:
                    lines[index+1] += "   " + data
                    if top:
                        lines[index+1] += space_after_line
                else:
                    if top:
                        lines.append(data + space_after_line)
                    else:
                        lines.append(data)
                for line_number in range(1, len(lines) - 1):
                    if len(lines[line_number + 1]) > len(lines[line_number]):
                        lines[line_number] += " " * (len(lines[line_number + 1]) - len(lines[line_number]))

        lines[0] = " " * int((len(max(lines, key=len)) - len(str(self.data))) / 2) + lines[0]
        return '\n'.join(lines)

    def hasChildren(self) -> bool:
        return bool(self.children)

    def __getitem__(self, pos: Union[int, slice]):
        return self.children[pos]

And then a demo:

# Demo
root = Node("Languages Good For")
root.insert("Serverside Web Development")
root.insert("Clientside Web Development")
root.insert("For Speed")
root.insert("Game Development")
root[0].insert("Python")
root[0].insert("NodeJS")
root[0].insert("Ruby")
root[0].insert("PHP")
root[1].insert("CSS + HTML + Javascript")
root[1].insert("Typescript")
root[1].insert("SASS")
root[2].insert("C")
root[2].insert("C++")
root[2].insert("Java")
root[2].insert("C#")
root[3].insert("C#")
root[3].insert("C++")
root[0][0].insert("Flask")
root[0][0].insert("Django")
root[0][1].insert("Express")
root[0][2].insert("Ruby on Rails")
root[0][0][0].insert(1.1)
root[0][0][0].insert(2.1)
print(root)

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