Visualize tree in bash, like the output of unix "tree"

Question

Given input:

apple: banana eggplant
banana: cantaloupe durian
eggplant:
fig:

I would like to concatenate it into the format:

├─ apple
│  ├─ banana
│  │   ├─ cantaloupe
│  │   └─ durian
│  └─ eggplant
└─ fig

There may or may not be multiple root elements (in the above example, there are two root elements), and I would like to find a solution that handles them without an issue.

Are there any command line tools that can handle this kind of transformation? Failing that, is there anything in other scripting languages that can handle this somewhat easily (I've looked at Python's pprint but I'm not sure how to use it for something like this either)?

Answer 1

following code shall produce the tree structure you are asking for:

branch = '├'
pipe = '|'
end = '└'
dash = '─'


class Tree(object):
    def __init__(self, tag):
        self.tag = tag


class Node(Tree):
    def __init__(self, tag, *nodes):
        super(Node, self).__init__(tag)
        self.nodes = list(nodes)


class Leaf(Tree):
    pass


def _draw_tree(tree, level, last=False, sup=[]):
    def update(left, i):
        if i < len(left):
            left[i] = '   '
        return left

    print ''.join(reduce(update, sup, ['{}  '.format(pipe)] * level)) \
          + (end if last else branch) + '{} '.format(dash) \
          + str(tree.tag)
    if isinstance(tree, Node):
        level += 1
        for node in tree.nodes[:-1]:
            _draw_tree(node, level, sup=sup)
        _draw_tree(tree.nodes[-1], level, True, [level] + sup)


def draw_tree(trees):
    for tree in trees[:-1]:
        _draw_tree(tree, 0)
    _draw_tree(trees[-1], 0, True, [0])

it requires you represent the data using given form.

---

about your data deserialization, you just need to keep track of the parent nodes, such that when a leaf appears to be a node, you just replace it:

class Track(object):
    def __init__(self, parent, idx):
        self.parent, self.idx = parent, idx


def parser(text):
    trees = []
    tracks = {}
    for line in text.splitlines():
        line = line.strip()
        key, value = map(lambda s: s.strip(), line.split(':', 1))
        nodes = value.split()
        if len(nodes):
            parent = Node(key)
            for i, node in enumerate(nodes):
                tracks[node] = Track(parent, i)
                parent.nodes.append(Leaf(node))
            curnode = parent
            if curnode.tag in tracks:
                t = tracks[curnode.tag]
                t.parent.nodes[t.idx] = curnode
            else:
                trees.append(curnode)
        else:
            curnode = Leaf(key)
            if curnode.tag in tracks:
                # well, how you want to handle it?
                pass # ignore
            else:
                trees.append(curnode)
    return trees

it runs:

>>> text='''apple: banana eggplant
banana: cantaloupe durian
eggplant:
fig:'''
>>> draw_tree(parser(text))
├─ apple
|  ├─ banana
|  |  ├─ cantaloupe
|  |  └─ durian
|  └─ eggplant
└─ fig

hope it fully deals with your problem.

---

update

my code offers some concern over corner cases, for example:

>>> text='''apple: banana eggplant
banana: cantaloupe durian
eggplant:'''
>>> draw_tree(parser(text))
└─ apple
   ├─ banana
   |  ├─ cantaloupe
   |  └─ durian
   └─ eggplant

notice the left most side of subnodes of apple, there is no | to the end because they are suppressed.

or empty in the middle:

>>> text='''apple: banana
banana: cantaloupe durian
eggplant:'''
>>> draw_tree(parser(text))
├─ apple
|  └─ banana
|     ├─ cantaloupe
|     └─ durian
└─ eggplant

Answer 2

This question is old, but here is a networkx version of the first solution:

def nx_ascii_tree(graph, key=None):
    """
    Creates an printable ascii representation of a directed tree / forest.

    Args:
        graph (nx.DiGraph): each node has at most one parent (
            i.e. graph must be a directed forest)
        key (str): if specified, uses this node attribute as a label instead of
            the id

    References:
        https://stackoverflow.com/questions/32151776/visualize-tree-in-bash-like-the-output-of-unix-tree

    Example:
        >>> import networkx as nx
        >>> graph = nx.dfs_tree(nx.balanced_tree(2, 2), 0)
        >>> text = nx_ascii_tree(graph)
        >>> print(text)
        └── 0
           ├── 1
           │  ├── 3
           │  └── 4
           └── 2
              ├── 5
              └── 6
    """
    import six
    import networkx as nx
    branch = '├─'
    pipe = '│'
    end = '└─'
    dash = '─'

    assert nx.is_forest(graph)
    assert nx.is_directed(graph)

    lines = []

    def _draw_tree_nx(graph, node, level, last=False, sup=[]):
        def update(left, i):
            if i < len(left):
                left[i] = '   '
            return left

        initial = ['{}  '.format(pipe)] * level
        parts = six.moves.reduce(update, sup, initial)
        prefix = ''.join(parts)
        if key is None:
            node_label = str(node)
        else:
            node_label = str(graph.nodes[node]['label'])

        suffix = '{} '.format(dash) + node_label
        if last:
            line = prefix + end + suffix
        else:
            line = prefix + branch + suffix
        lines.append(line)

        children = list(graph.succ[node])
        if children:
            level += 1
            for node in children[:-1]:
                _draw_tree_nx(graph, node, level, sup=sup)
            _draw_tree_nx(graph, children[-1], level, True, [level] + sup)

    def draw_tree(graph):
        source_nodes = [n for n in graph.nodes if graph.in_degree[n] == 0]
        if source_nodes:
            level = 0
            for node in source_nodes[:-1]:
                _draw_tree_nx(graph, node, level, last=False, sup=[])
            _draw_tree_nx(graph, source_nodes[-1], level, last=True, sup=[0])

    draw_tree(graph)
    text = '\n'.join(lines)
    return text

Answer 3

Here is another version for your reference.

• This version has a parser, but without very robust error checking.
• Based on the answer by @HuStmpHrrr, I also update the code to handle the 'empty corner' and 'empty in middle case'

• I also add read file from stdin, thus being able to integrate with bash script. You need to uncomment the last part . Suppose this script is called script.py, you can call python script.py < test.txt to read from file. The text.txt will store the text content you give.

  #!/usr/bin/env python
  # -*- coding: utf-8 -*-
  import sys
  input_str = """apple: banana eggplant
  banana: cantaloupe durian
  eggplant:
  fig:
  """
  leaf_end_str = '└─ '
  leaf_inner_str = '├─ '
  child_conn_str = '│  '
  empty_str = '   '
  
  #debug = True
  debug = False
  
  def recursive_print(cur_root, p2r_list, prefix, is_end=False, only_one=False):
      # first print current node
      if only_one or is_end:
          print '%s%s%s'%(prefix, leaf_end_str, cur_root)
      else:
          print '%s%s%s'%(prefix, leaf_inner_str, cur_root)
  
      if only_one == True:
          next_prefix = prefix + empty_str
      else:
          next_prefix = prefix + child_conn_str
  
      #print p2r_list[cur_root]
      if p2r_list.has_key(cur_root):
          next_only_one = ( len(p2r_list[cur_root]) == 1 )
          for child in p2r_list[cur_root]:
              next_is_end = (child == p2r_list[cur_root][-1] )
              recursive_print(child, p2r_list, next_prefix, is_end = next_is_end, only_one = next_only_one)
  
  def tree_print(content):
      # get root and parent-children relation
      root = {} # check whether a node is root
      p2r_list = {} # store the parent-child relation
      for line in content.split('\n'):
          line = line.strip()
          if line == "":
              continue
  
          ws = line.split(':') # separate parent and child
          if not root.has_key(ws[0]):
              root[ws[0]] = True
          if not p2r_list.has_key(ws[0]):
              p2r_list[ws[0]] = []
          if len(ws) > 1:
              for child in ws[1].strip().split(' '):
                  if child == '':
                      continue
                  root[child] = False
                  p2r_list[ws[0]].append(child)
  
      if debug:
          print root, '\n', p2r_list
  
      root_list = [r for r in root.keys() if root[r]]
      for r in root_list:
          if r == root_list[-1]:
              recursive_print(r, p2r_list, '', is_end = True, only_one=True)
          else:
              recursive_print(r, p2r_list,'')
  
  if __name__ == "__main__":
      tree_print(input_str )
      """
      content = sys.stdin.read()
      #print content
      if content != '':
          tree_print( content)
      #"""