Metadata-Version: 2.1
Name: RecursiveNamespace
Version: 0.2.2
Summary: Recursive Namespace. An extension of SimpleNamespace
Home-page: https://github.com/HessamLa/RecursiveNamespace
Author: Hamidreza Lotfalizadeh (Hessam)
Author-email: HLOTFALI_at_PURDUE_EDU@random.site
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Requires-Python: >=3.6
Description-Content-Type: text/markdown
License-File: LICENSE

# RecursiveNamespace

## Description
**RecursiveNamespace** is an extension of Python's **SimpleNamespace** that provides enhanced functionality for working with nested namespaces and dictionaries. This package allows easy access and manipulation of deeply nested data structures in an intuitive and Pythonic way.

## Installation
To install **RecursiveNamespace** from PyPI use the following command.
```bash
pip install RecursiveNamespace
```

If you want to use the github clone, use the following.
```bash
git clone https://github.com/HessamLa/RecursiveNamespace.git
cd RecursiveNamespace
pip install .
```

# Usage

The **RecursiveNamespace** class can be used in the same way as Python's **SimpleNamespace** class, but in a recursive fashion. The **RecursiveNamespace** class can be instantiated with a dictionary or keyword arguments. The **RecursiveNamespace** class also provides a `to_dict()` method that returns a dictionary representation of the namespace.

## Basic Usage
One of the best use cases of this module is converting `dict` into a recursive namespace, and back to `dict`.
Another usage is to convert a dictionary to a recursive namespace.

```python
from recursivenamespace import rns # or RecursiveNamespace

data = {
    'name': 'John',
    'age': 30,
    'address': {
        'street': '123 Main St',
        'city': 'Anytown'
    },
    'friends': ['Jane', 'Tom']
}

rn = rns(data)
print(type(rn)) # <class 'recursivenamespace.main.recursivenamespace'>
print(rn)       # RNS(name=John, age=30, address=RNS(street=123 Main St, city=Anytown))
print(rn.name)  # John
print(rn.address.city) # Anytown
print(rn.friends[1])   # Tom, yes it does recognize iterables

# convert back to dictionary
data2 = rn.to_dict()
print(type(data2)) # <class 'dict'>
print(data2 == data) # True
print(data2['address']['city']) # Anytown
print(data2['friends'][1])      # Tom
```

You can use the key or namespace interchangeably
```python
print(rn.friends[1] is rn['friends'][1]) # True
```


You can also use it with YAML. 
```python
import yaml
from recursivenamespace import rns
datatext = """
name: John
age: 30
address:
    street: 123 Main St
    city: Anytown
friends:
    - Jane
    - Tom
"""
data = yaml.safe_load(datatext)
rn = rns(data) 
print(rn) # RNS(name=John, age=30, address=RNS(street=123 Main St, city=Anytown))

# convert back to YAML
data_yaml = yaml.dump(rn.to_dict())
```

Let's see other use cases. You can make a nested rns.
```python
from recursivenamespace import rns
results = rns(
    params=rns(
        alpha=1.0,
        beta=2.0,
    ),
    metrics=rns(
        accuracy=98.79,
        f1=97.62
    )
)
```

Access elements as dictionary keys or namespace attributes.
```python
print(results.params.alpha is results.params['alpha'])             # True
print(results['metrics'].accuracy is  results.metrics['accuracy']) # True
```

Convert only the metrics to dictionary.
```python
metrics_dict = results.metrics.to_dict()
print(metrics_dict) # {'accuracy': 98.79, 'f1': 97.62}
```
Or convert all to a nested dictionary.
```python
from pprint import pprint
output_dict = results.to_dict()
pprint(output_dict)
# {'metrics': {'accuracy': 98.79, 'f1': 97.62},
# 'params':  {'alpha': 1.0, 'beta': 2.0}}
```
Flatten the dictionary using a separator for keys.
```python
flat_dict = results.to_dict(flatten_sep='_')
pprint(flat_dict)
# {'metrics_accuracy': 98.79,
#  'metrics_f1': 97.62,
#  'params_alpha': 1.0,
#  'params_beta': 2.0}
```
Add more fields on the fly.
```python
results.experiment_name = 'experiment_name'
results.params.dataset_version = 'dataset_version'
results.params.gamma = 0.35
```

The character '-' in a key will be converted to '_'
```python
results.params['some-key'] = 'some-value'
print(results.params.some_key)                                  # some-value
print(results.params['some-key'] is results.params.some_key)    # True
print(results.params['some-key'] is results.params['some_key']) # True
```

# Testing
To run tests, navigate to the project's root directory and execute:
```bash
python -m unittest discover tests
```

The `test_recursive_namespace.py` file contains tests for the **RecursiveNamespace** class.

# Contributing
Contributions to the **RecursiveNamespace** project are welcome! Please ensure that any pull requests include tests covering new features or fixes.

# License
This project is licensed under the MIT License - see the `LICENSE` file for details.

You should copy the actual content from examlpes scripts (founde under `./examples/` directory) and paste it into the respective sections of the README. This provides users with immediate examples of how to use your package. The Testing section explains how to run the unit tests, encouraging users to check that everything is working correctly.
