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meta_class.py
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meta_class.py
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"""
Metaclass are used to modify a class as it is being created at runtime.
This module shows how a metaclass can add database attributes and tables
to "logic-free" model classes for the developer.
"""
from abc import ABC
class ModelMeta(type):
"""Model metaclass.
By studying how SQLAlchemy and Django ORM work under the hood, we can see
a metaclass can add useful abstractions to class definitions at runtime.
That being said, this metaclass is a toy example and does not reflect
everything that happens in either framework. Check out the source code
in SQLAlchemy and Django to see what actually happens:
https://github.com/sqlalchemy/sqlalchemy
https://github.com/django/django
The main use cases for a metaclass are (A) to modify a class before
it is visible to a developer and (B) to add a class to a dynamic registry
for further automation.
Do NOT use a metaclass if a task can be done more simply with class
composition, class inheritance or functions. Simple code is the reason
why Python is attractive for 99% of users.
For more on metaclass mechanisms, visit the link below:
https://realpython.com/python-metaclasses/
"""
# Model table registry
tables = {}
def __new__(mcs, name, bases, attrs):
"""Factory for modifying the defined class at runtime.
Here are the following steps that we take:
1. Get the defined model class
2. Add a model_name attribute to it
3. Add a model_fields attribute to it
4. Add a model_table attribute to it
5. Link its model_table to a registry of model tables
6. Return the modified model class
"""
kls = super().__new__(mcs, name, bases, attrs)
# Abstract model does not have a `model_name` but a real model does.
# We will leverage this fact later on this routine
if attrs.get("__abstract__") is True:
kls.model_name = None
else:
custom_name = attrs.get("__table_name__")
default_name = kls.__name__.replace("Model", "").lower()
kls.model_name = custom_name if custom_name else default_name
# Ensure abstract and real models have fields so that
# they can be inherited
kls.model_fields = {}
# Fill model fields from the parent classes (left-to-right)
for base in bases:
kls.model_fields.update(base.model_fields)
# Fill model fields from itself
kls.model_fields.update({
field_name: field_obj
for field_name, field_obj in attrs.items()
if isinstance(field_obj, BaseField)
})
# Register a real table (a table with valid `model_name`) to
# the metaclass `table` registry. After all the tables are
# registered, the registry can be sent to a database adapter
# which uses each table to create a properly defined schema
# for the database of choice (i.e. PostgresSQL, MySQL)
if kls.model_name:
kls.model_table = ModelTable(kls.model_name, kls.model_fields)
ModelMeta.tables[kls.model_name] = kls.model_table
else:
kls.model_table = None
return kls
@property
def is_registered(cls):
"""Check if the model's name is valid and exists in the registry."""
return cls.model_name and cls.model_name in cls.tables
class ModelTable:
"""Model table."""
def __init__(self, table_name, table_fields):
self.table_name = table_name
self.table_fields = table_fields
class BaseField(ABC):
"""Base field."""
class CharField(BaseField):
"""Character field."""
class IntegerField(BaseField):
"""Integer field."""
class BaseModel(metaclass=ModelMeta):
"""Base model.
Notice how `ModelMeta` is injected at the base class. The base class
and its subclasses will be processed by the method `__new__` in the
`ModelMeta` class before being created.
In short, think of a metaclass as the creator of classes. This is
very similar to how classes are the creator of instances.
"""
__abstract__ = True # This is NOT a real table
row_id = IntegerField()
class UserModel(BaseModel):
"""User model."""
__table_name__ = "user_rocks" # This is a custom table name
username = CharField()
password = CharField()
age = CharField()
sex = CharField()
class AddressModel(BaseModel):
"""Address model."""
user_id = IntegerField()
address = CharField()
state = CharField()
zip_code = CharField()
def main():
# Real models are given a name at runtime with `ModelMeta`
assert UserModel.model_name == "user_rocks"
assert AddressModel.model_name == "address"
# Real models are given fields at runtime with `ModelMeta`
assert "row_id" in UserModel.model_fields
assert "row_id" in AddressModel.model_fields
assert "username" in UserModel.model_fields
assert "address" in AddressModel.model_fields
# Real models are registered at runtime with `ModelMeta`
assert UserModel.is_registered
assert AddressModel.is_registered
# Real models have a `ModelTable` that can be used for DB setup
assert isinstance(ModelMeta.tables[UserModel.model_name], ModelTable)
assert isinstance(ModelMeta.tables[AddressModel.model_name], ModelTable)
# Base model is given special treatment at runtime
assert not BaseModel.is_registered
assert BaseModel.model_name is None
assert BaseModel.model_table is None
# Every model is created by `ModelMeta`
assert isinstance(BaseModel, ModelMeta)
assert all(isinstance(model, ModelMeta)
for model in BaseModel.__subclasses__())
# And `ModelMeta` is created by `type`
assert isinstance(ModelMeta, type)
# And `type` is created by `type` itself
assert isinstance(type, type)
# And everything in Python is an object!
assert isinstance(BaseModel, object)
assert isinstance(ModelMeta, object)
assert isinstance(type, object)
assert isinstance(object, object)
if __name__ == "__main__":
main()