Metadata-Version: 2.1
Name: argteller
Version: 0.0b20
Summary: Decorator for stylized interactive constructor using DSL and parser.
Home-page: https://github.com/mozjay0619/argteller
Author: Jay Kim
License: DSB 3-clause
Platform: UNKNOWN
Description-Content-Type: text/x-rst


Argteller
=========

The argteller package provides the class and method decorators for a self-documenting, highly user-friendly interactive class object constructor. It will ask you for parameters that you need to provide, one by one. It will tell you the options that are available, and ask you for different parameters depending on what you have already provided. You can encode all of these in the custom DSL (domain specific language) script. 


Install
-------

::

	pip install argteller

Getting started: topics and parameters
--------------------------------------

To start using argteller, you must first create a DSL script, either in the form of a text file or a string value. This script contains the names of the parameters as well as other auxiliary information, which we will go over in detail. 

The first two, and most basic, pieces of information are: ``topic`` and ``parameter``. The name of a ``topic`` is just a line of string. The name of a ``parameter`` is a line of string preceded by ``-``. Let's look at an example:

::

	person		<--- topic
	-height		<--- parameter
	-weight
	-name

We will now apply this DSL script to a Python class. First we need to import the class decorator. Also, we need to put the script either as a string variable or a text file, in which case, we need the path to the file. Let's assume this variable is ``string``. 

.. code:: python

	from argteller import ArgtellerClassDecorator

	@ArgtellerClassDecorator(map_str=string)
	class MyClass():

	    def __init__(self):
	    	print('Finally!')

	my_object = MyClass()

Running the above code will parse the script into tree data structure and prompt the user for the required arguments by recursively traversing down this tree, giving appropriate prompts for the given node.

::

	✔ Checking person requirements...     Failed!

	Required argument(s):

	► height  weight  name

Providing an argument for one of the parameter will prompt different set of required arguments:

.. code:: python

	my_object = MyClass(height=189, name='Tim')

::

	✔ Checking person requirements...     Failed!

	Required argument(s):

	► weight

You could have multiple topics:

::

	person		<--- topic
	-height
	-weight
	-name

	other_details 	<--- 2nd topic
	-hobby
	-major

It will check them one by one, providing the user an opportunity to partition and organize the parameters by topics:

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim', 
	hobby='basketball')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► major

Once you provide all the required parameters, the original ``__init__`` method will be called. 

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim', 
	hobby='basketball', major='math')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Passed!
	Finally!

At this point, all of the parameters are accessible as object fields, anywhere as if they were always there, including from within the ``__init__`` method as well as any other instance methods. 

.. code:: python

	print(my_object.major)
	print(my_object.name)



Available options
-----------------

You can specify available options by preceding the name with a ``tab`` and ``=`` character:

::

	person		
	-height
	-weight
	-name

	other_details 	
	-hobby
	    =basketball		<--- available options
	    =soccer
	-major

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► hobby  major

	Available [ hobby ] options:

	► basketball  soccer


Conditional parameters
----------------------

What if there is a parameter that's needed only if the ``hobby`` is ``basketball``, such as ``style``, that could be ``indoor`` or ``outdoor``?

::

	person		
	-height
	-weight
	-name

	other_details 	
	-hobby
	    =basketball
	        -style		<--- conditional parameter
	            =indoor
	            =outdoor
	    =soccer
	-major

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim',
                   hobby='basketball')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► major

	Required argument(s) for [ basketball ] hobby:

	► style

	Available [ style ] options:

	► indoor  outdoor


Optional parameters
-------------------

You could also have optional parameters, which are parameters that you can leave empty and still pass the topic requirement. For these you use ``+`` character.

::

	person		
	-height
	-weight
	-name
	+gender			<--- you can provide this parameter or not

	other_details 	
	-hobby
	    =basketball
	        -style		
	            =indoor
	            =outdoor
	    =soccer
	-major

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim',
                   hobby='basketball')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► major

	Required argument(s) for [ basketball ] hobby:

	► style

	Available [ style ] options:

	► indoor  outdoor

	Optional argument(s) for person:

	► gender


Boolean parameter conditioned parameter
---------------------------------------

You could have a parameter whose value is either ``True`` or ``False``, and perhaps a conditional parameter depends on this boolean parameter. For these you use ``?`` character. For example:

::

	person		
	-height
	-weight
	-name
	+gender			

	other_details 	
	-hobby
	-major
	?has_car		<--- only ask for car_brand if this person has_car
	    -car_brand

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim',
	                   hobby='basketball', has_car=True)

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► major

	Required argument(s) for [ has_car ] option:

	► car_brand

	Optional argument(s) for person:

	► gender


String examples of the parameter values
---------------------------------------

You could provide example for the parameter value with explicit string values. For these you use ``==`` characters.

::

	person
	-height
	-weight
	-name
	+gender

	other_details 
	-hobby
	-major
	?has_car
	    -car_brand
	        =='Toyota', 'BMW', 'Tesla'		<--- string examples of the value

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim',
	                   hobby='basketball', has_car=True)

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Failed!

	Required argument(s):

	► major

	Required argument(s) for [ has_car ] option:

	► car_brand

	Examples for [ car_brand ]: 'Toyota', 'BMW', 'Tesla'

	Optional argument(s) for person:

	► gender

Conditional parameter value assignement
---------------------------------------

Lastly, you can assign a value to a parameter depending on which available option argument was chosen:

::

	person
	-height
	-weight
	-name
	+gender

	other_details 
	-hobby
	    =basketball
	        -style
	            =indoor
	            =outdoor
	    =soccer
	    =coding
	        -major:'comp-sci'
	-major

.. code:: python

	my_object = MyClass(height=189, weight=80, name='Tim',
                   hobby='coding')

::

	✔ Checking person requirements...     Passed!
	✔ Checking other_details requirements...     Passed!

	Optional argument(s) for person:

	► gender
	Finally!

This object now has ``comp-sci`` string value assigned to ``major`` field because we chose ``coding`` option for the ``hobby`` parameter: 

.. code:: python

	print(my_object.major)  # comp-sci










