As the name suggests, this is a very simple model framework. It can be used for data validation and (de-)serialization.
New Head over to v2 now!
Install with pip:
$ pip install --user simple_model
This allows me to test the examples by taking care of sorting the dictionaries, it is not required for simple_model to work:
>>> from pprint import pprint
Examples:
>>> from simple_model import Model, Attribute
>>> class Data(Model):
... name = Attribute(str)
... some_value = Attribute(str, optional=True)
... another_value = Attribute(int, fallback=0)
>>> pprint(dict(Data(name = 'test', some_value = None, another_value = 12)))
{'another_value': 12, 'name': 'test', 'some_value': None}
>>> pprint(dict(Data(name = 'test')))
{'another_value': 0, 'name': 'test', 'some_value': None}
>>> init_dict = {'name': 'test', 'some_value': 'val', 'another_value': 3}
>>> pprint(dict(Data(**init_dict)))
{'another_value': 3, 'name': 'test', 'some_value': 'val'}
Initializing with missing attributes while not specifying them as optional or providing a fallback value will result in a ValueError containing all failed attributes. Note that fallback takes precedence over optional, specifying both is unnecessary.
Unknown values will be ignored
>>> pprint(dict(Data(name = 'test', unknown_value = True)))
{'another_value': 0, 'name': 'test', 'some_value': None}
Serialization can be achieved easily, for example
>>> import json
>>> def serialize(model):
... return json.dumps(dict(model))
>>> def deserialize(string):
... return Data(**json.loads(string))
Since the Model class simply calls the Attribute class for each parameter and the Attribute class in turn calls the given 'type', one could easily use functions instead of types to achieve more complex results and value parsing
>>> from datetime import datetime
>>> def parse_date(string):
... return datetime.strptime(string, '%Y-%m-%d')
>>> class Data(Model):
... date = Attribute(parse_date)
>>> dict(Data(date='2015-11-20'))
{'date': datetime.datetime(2015, 11, 20, 0, 0)}
Fallback values can also be given as functions
>>> def fun():
... return "foo"
>>> class Data(Model):
... point = Attribute(str, fallback=fun)
>>> dict(Data())
{'point': 'foo'}
If you need to verify Lists of objects, use functions
>>> class Data(Model):
... points = Attribute(lambda l: list(map(str, l)))
>>> dict(Data(points=['abc', 'def', 'ghi']))
{'points': ['abc', 'def', 'ghi']}
Or the included list_type helper class
>>> from simple_model.helpers import list_type
>>> class Data(Model):
... points = Attribute(list_type(str))
>>> dict(Data(points=['abc', 'def', 'ghi']))
{'points': ['abc', 'def', 'ghi']}
For more complex data, use Models to verify
>>> class SubData(Model):
... some_value = Attribute(str)
... some_other_value = Attribute(int)
>>> class Data(Model):
... point = Attribute(SubData)
>>> pprint(dict(Data(point={'some_value': 'abc', 'some_other_value': 12})))
{'point': {'some_other_value': 12, 'some_value': 'abc'}}
To allow uncommon names, use the Attribute name keyword
>>> class Data(Model):
... point = Attribute(str, name='@point')
>>> dict(Data(point='something'))
{'@point': 'something'}
>>> dict(Data(**{ '@point': 'something' }))
{'@point': 'something'}
To easily check against expected values you can use the helper function one_of
>>> from simple_model.helpers import one_of
>>> class Data(Model):
... foo = Attribute(one_of('bar', 'foobar'))
>>> dict(Data(foo='bar'))
{'foo': 'bar'}
>>> dict(Data(foo='foo')) # doctest: +ELLIPSIS
Traceback (most recent call last):
...
ValueError: {...'exception': "ValueError: must be one of ('bar', 'foobar') but was 'foo'"...}
If you want to disallow unknown values, set the __ignore_unknown__ attribute to False
>>> class Data(Model):
... __ignore_unknown__ = False
...
... point = Attribute(str)
>>> Data(point = 'abc', other = 'def')
Traceback (most recent call last):
...
ValueError: Unknown key "other" with value "def"
You can now set Models to be mutable and change Attribute values after creation
>>> class Data(Model):
... point = Attribute(int)
>>> d = Data(point = 1)
>>> d.point
1
>>> d.point = 2
>>> d.point
2
>>> d.__mutable__ = False
>>> d.point = 3
Traceback (most recent call last):
...
AttributeError: Model is immutable
To run the tests use tox:
$ tox
Please submit any issues on GitHub.
see CHANGELOG
see LICENSE