# Contributing

Kalliope needs the community to improve its Core features and to create new Neurons. Let's join us !

## Core

The community can contribute to the Core of Kalliope by providing some new features.

#### How to contribute

1. Fork it!
2. Create your feature branch: `git checkout -b my-new-feature`
3. Commit your changes: `git commit -am 'Add some feature'`
4. Push to the branch: `git push origin my-new-feature`
5. Submit a pull request :D


## Neurons

Kalliope modularity is fully based on Neuron so the community can contribute by adding their own.
Neurons are independent projects so they can be developed under a github project. Anyone can clone them, place them under the neurons repository and reuse them.

Creating a new Neuron must follow some rules:

##### Repository Structure
1. The Neuron repository name is in __lowercase__.
1. The Neuron repository must be added under the __neurons__ repository coming from the Core. 
1. Under the Neuron repository, the Neuron has a __README.md file__ describing the Neuron following this structure:
    - Neuron name:
    - Synopsis:         Description of the Neuron
    - Options:          A table of the incoming parameters managed by the Neuron.
    - Return Values:    A table of the returned values which can be catched by the *say_template attribute*.
    - Synapses example: An example of how to use the Neuron inside a Synapse.
    - Notes:            Something which needs to be add.
1. Under the Neuron repository, include a __Tests repository__ to manage the test of the Neuron.

    
##### Code
1. Under the Neuron repository, the Neuron file name .py is also in __lowercase__.
1. The Neuron must be coded in __Python 2.7__.
1. Under the Neuron repository, include the __init__.py file which contains: *from neuron import Neuron* (/!\ respect the Case)
1. Inside the Neuron file, the Neuron Class name is in __uppercase__.
1. The Neuron __inherits from the NeuronModule__ coming from the Core. 

    ```
    from core.NeuronModule import NeuronModule
    class Say(NeuronModule):
    ```


1. The Neuron has a constructor __init__ which is the entry point.
The constructor has a __**kwargs argument__ which is corresponding to the Dict of incoming variables:values defined either in the brain file or in the signal.
1. The Neuron must refer to its __parent structure__ in the init by calling the super of NeuronModule.
  
    ```
    def __init__(self, **kwargs):
        super(Say, self).__init__(**kwargs)
    ```

1. You must run unit tests with success before sending a pull request. Add new tests that cover the code you want to publish.
    ```
    cd /path/to/kalliope
    python -m unittest discover
    ```

1. (*optionnal-> good practice*) The Neuron can implement a __private method _is_parameters_ok(self)__ which checks if entries are ok. *return: true if parameters are ok, raise an exception otherwise*
1. (*optionnal-> good practice*) The Neuron can __import and raise exceptions__ coming from NeuronModule:
    - MissingParameterException: *Some Neuron parameters are missing.*
    - InvalidParameterException: *Some Neuron parameters are invalid.*

1. The Neuron can use a __self.say(message) method__ to speak out some return values using the *say_template* attribute in the brain file.
the message variable must be a Dict of variable:values where variables can be defined as output.

1. Example of neuron structure
    ```
    myneuron/
    ├── __init__.py
    ├── myneuron.py
    ├── README.md
    └── tests
        ├── __init__.py
        └── test_myneuron.py
    ```

1. Example of neuron code
    ```
    class Myneuron(NeuronModule):
    def __init__(self, **kwargs):
        super(Myneuron, self).__init__(**kwargs)
        # the args from the neuron configuration
        self.arg1 = kwargs.get('arg1', None)
        self.arg2 = kwargs.get('arg2', None)

        # check if parameters have been provided
        if self._is_parameters_ok():
            # -------------------
            # do amazing code
            # -------------------            

    def _is_parameters_ok(self):
        """
        Check if received parameters are ok to perform operations in the neuron
        :return: true if parameters are ok, raise an exception otherwise

        .. raises:: MissingParameterException
        """
        if self.arg1 is None:
            raise MissingParameterException("You must specify a arg1")
        if not isinstance(self.arg2, int):
            raise MissingParameterException("arg2 must be an integer")
        return True
    ```

##### Constraints

1. The Neuron must (as much as possible) ensure the i18n. This means that they should __not manage a specific language__ inside its own logic.
Only [Synapse](brain.md) by the use of [Order](signals.md) must interact with the languages. This allow a Neuron to by reused by anyone, speaking any language.

1. Respect [PEP 257](https://www.python.org/dev/peps/pep-0257/) -- Docstring conventions. For each class or method add a description with summary, input parameter, returned parameter,  type of parameter
    ```
    def my_method(my_parameter):
        """
        Description of he method
        :param my_parameter: description of he parameter
        :type my_parameter: str
        """
    ```
    
1. Respect [PEP 8](https://www.python.org/dev/peps/pep-0008/) -- Style Guide for Python Code
We recommend the usage of an IDE like [Pycharm](https://www.jetbrains.com/pycharm/)

##### Limitations

1. The management of incoming variable from the signal order when they are __numbers or float are not efficient__. (Thanks to @thebao for pointing this out!)
    - Because of the differences between the STTs outputs: some are returning word some numbers (two != 2). 
    - Because of the i18n, we are not able to know if a variable should be  interpreted in english, french, spanish, etc ... ("two" != "deux" != "dos")


## STT, TTS, Trigger

They are managed like Neurons, you can follow the same process to develop your own !

## Share it

*Incoming*

We are maintening a list of all the Neurons available from the community, let us know