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Daniel Baumann d5b8e0af0d
Adding upstream version 1.6.4. 
Signed-off-by: Daniel Baumann <daniel@debian.org>
2025-02-05 14:32:06 +01:00

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.. treelib documentation master file, created by
sphinx-quickstart on Thu Dec 20 16:30:18 2018.
You can adapt this file completely to your liking, but it should at least
contain the root `toctree` directive.
Welcome to treelib's documentation!
***********************************
.. toctree::
:maxdepth: 2
:caption: Contents:
Introduction
============
`Tree <http://en.wikipedia.org/wiki/Tree_%28data_structure%29>`_ is an
important data structure in computer science. Examples are shown in ML algorithm designs such as random forest tree and software engineering such as file system index. `treelib <https://github.com/caesar0301/pyTree>`_ is created to provide an efficient implementation of tree data structure in Python.
The main features of `treelib` includes:
* Efficient operation of node searching, O(1).
* Support common tree operations like **traversing**, **insertion**, **deletion**, **node moving**, **shallow/deep copying**, **subtree cutting** etc.
* Support user-defined data payload to accelerate your model construction.
* Pretty tree showing and text/json dump for pretty show and offline analysis.
* Compatible with Python 2 and 3.
Installation
============
The rapidest way to install treelib is using the package management tools like
``easy_install`` or ``pip`` with command
.. code-block:: sh
$ sudo easy_install -U treelib
or the setup script
.. code-block:: sh
$ sudo python setup.py install
**Note**: With the package management tools, the hosted version may be falling
behind current development branch on `Github
<https://github.com/caesar0301/pyTree>`_. If you encounter some problems, try
the freshest version on Github or open `issues
<https://github.com/caesar0301/pyTree/issues>`_ to let me know your problem.
Examples
========
Basic Usage
-------------
.. code-block:: sh
>>> from treelib import Node, Tree
>>> tree = Tree()
>>> tree.create_node("Harry", "harry") # root node
>>> tree.create_node("Jane", "jane", parent="harry")
>>> tree.create_node("Bill", "bill", parent="harry")
>>> tree.create_node("Diane", "diane", parent="jane")
>>> tree.create_node("Mary", "mary", parent="diane")
>>> tree.create_node("Mark", "mark", parent="jane")
>>> tree.show()
Harry
├── Bill
└── Jane
├── Diane
│ └── Mary
└── Mark
API Examples
--------------
**Example 1**: Expand a tree with specific mode (Tree.DEPTH [default],
Tree.WIDTH, Tree.ZIGZAG).
.. code-block:: sh
>>> print(','.join([tree[node].tag for node in \
tree.expand_tree(mode=Tree.DEPTH)]))
Harry,Bill,Jane,Diane,Mary,Mark
**Example 2**: Expand tree with custom filter.
.. code-block:: sh
>>> print(','.join([tree[node].tag for node in \
tree.expand_tree(filter = lambda x: \
x.identifier != 'diane')]))
Harry,Bill,Jane,Mark
**Example 3**: Get a subtree with the root of 'diane'.
.. code-block:: sh
>>> sub_t = tree.subtree('diane')
>>> sub_t.show()
Diane
└── Mary
**Example 4**: Paste a new tree to the original one.
.. code-block:: sh
>>> new_tree = Tree()
>>> new_tree.create_node("n1", 1) # root node
>>> new_tree.create_node("n2", 2, parent=1)
>>> new_tree.create_node("n3", 3, parent=1)
>>> tree.paste('bill', new_tree)
>>> tree.show()
Harry
├── Bill
│ └── n1
│ ├── n2
│ └── n3
└── Jane
├── Diane
│ └── Mary
└── Mark
**Example 5**: Remove the existing node from the tree
.. code-block:: sh
>>> tree.remove_node(1)
>>> tree.show()
Harry
├── Bill
└── Jane
├── Diane
│ └── Mary
└── Mark
**Example 6**: Move a node to another parent.
.. code-block:: sh
>>> tree.move_node('mary', 'harry')
>>> tree.show()
Harry
├── Bill
├── Jane
│ ├── Diane
│ └── Mark
└── Mary
**Example 7**: Get the height of the tree.
.. code-block:: sh
>>> tree.depth()
2
**Example 8**: Get the level of a node.
.. code-block:: sh
>>> node = tree.get_node("bill")
>>> tree.depth(node)
1
**Example 9**: Print or dump tree structure. For example, the same tree in
basic example can be printed with 'ascii-em':
.. code-block:: sh
>>> tree.show(line_type="ascii-em")
Harry
╠══ Bill
╠══ Jane
║ ╠══ Diane
║ ╚══ Mark
╚══ Mary
In the JSON form, to_json() takes optional parameter with_data to trigger if
the data field is appended into JSON string. For example,
.. code-block:: sh
>>> print(tree.to_json(with_data=True))
{"Harry": {"data": null, "children": [{"Bill": {"data": null}}, {"Jane": {"data": null, "children": [{"Diane": {"data": null}}, {"Mark": {"data": null}}]}}, {"Mary": {"data": null}}]}}
**Example 10**: Save tree into file
The function save2file require a filename.
The file is opened to write using mode 'ab'.
.. code-block:: sh
>>> tree.save2file('tree.txt')
Advanced Usage
----------------
Sometimes, you need trees to store your own data. The newest version of
:mod:`treelib` supports ``.data`` variable to store whatever you want. For
example, to define a flower tree with your own data:
.. code-block:: sh
>>> class Flower(object): \
def __init__(self, color): \
self.color = color
You can create a flower tree now:
.. code-block:: sh
>>> ftree = Tree()
>>> ftree.create_node("Root", "root", data=Flower("black"))
>>> ftree.create_node("F1", "f1", parent='root', data=Flower("white"))
>>> ftree.create_node("F2", "f2", parent='root', data=Flower("red"))
Printing the colors of the tree:
.. code-block:: sh
>>> ftree.show(data_property="color")
black
├── white
└── red
**Notes:** Before version 1.2.5, you may need to inherit and modify the behaviors of tree. Both are supported since then. For flower example,
.. code-block:: sh
>>> class FlowerNode(treelib.Node): \
def __init__(self, color): \
self.color = color
>>> # create a new node
>>> fnode = FlowerNode("white")
Indices and tables
==================
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`
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