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import copy |
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import dataclasses |
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from abc import ABCMeta |
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from copy import deepcopy |
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from typing import Any, final |
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_FIELDS = "__fields__" |
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@dataclasses.dataclass |
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class Field: |
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""" |
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An alternative to dataclasses.dataclass decorator for a more flexible field definition. |
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Attributes: |
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default (Any, optional): Default value for the field. Defaults to None. |
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name (str, optional): Name of the field. Defaults to None. |
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type (type, optional): Type of the field. Defaults to None. |
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default_factory (Any, optional): A function that returns the default value. Defaults to None. |
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final (bool, optional): A boolean indicating if the field is final (cannot be overridden). Defaults to False. |
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abstract (bool, optional): A boolean indicating if the field is abstract (must be implemented by subclasses). Defaults to False. |
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required (bool, optional): A boolean indicating if the field is required. Defaults to False. |
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origin_cls (type, optional): The original class that defined the field. Defaults to None. |
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""" |
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default: Any = None |
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name: str = None |
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type: type = None |
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init: bool = True |
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also_positional: bool = True |
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default_factory: Any = None |
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final: bool = False |
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abstract: bool = False |
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required: bool = False |
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internal: bool = False |
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origin_cls: type = None |
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def get_default(self): |
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if self.default_factory is not None: |
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return self.default_factory() |
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else: |
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return self.default |
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@dataclasses.dataclass |
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class FinalField(Field): |
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def __post_init__(self): |
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self.final = True |
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@dataclasses.dataclass |
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class RequiredField(Field): |
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def __post_init__(self): |
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self.required = True |
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@dataclasses.dataclass |
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class OptionalField(Field): |
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def __post_init__(self): |
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self.required = False |
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assert ( |
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self.default is not None or self.default_factory is not None |
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), "OptionalField must have default or default_factory" |
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@dataclasses.dataclass |
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class AbstractField(Field): |
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def __post_init__(self): |
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self.abstract = True |
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@dataclasses.dataclass |
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class NonPositionalField(Field): |
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def __post_init__(self): |
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self.also_positional = False |
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@dataclasses.dataclass |
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class InternalField(Field): |
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def __post_init__(self): |
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self.internal = True |
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self.init = False |
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self.also_positional = False |
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class FinalFieldError(TypeError): |
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pass |
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class RequiredFieldError(TypeError): |
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pass |
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class AbstractFieldError(TypeError): |
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pass |
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class TypeMismatchError(TypeError): |
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pass |
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class UnexpectedArgumentError(TypeError): |
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pass |
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standart_variables = dir(object) |
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def is_possible_field(field_name, field_value): |
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""" |
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Check if a name-value pair can potentially represent a field. |
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Args: |
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field_name (str): The name of the field. |
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field_value: The value of the field. |
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Returns: |
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bool: True if the name-value pair can represent a field, False otherwise. |
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""" |
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return field_name not in standart_variables and not field_name.startswith("__") and not callable(field_value) |
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def get_fields(cls, attrs): |
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""" |
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Get the fields for a class based on its attributes. |
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Args: |
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cls (type): The class to get the fields for. |
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attrs (dict): The attributes of the class. |
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Returns: |
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dict: A dictionary mapping field names to Field instances. |
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""" |
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fields = {} |
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for base in cls.__bases__: |
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fields = {**getattr(base, _FIELDS, {}), **fields} |
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annotations = {**attrs.get("__annotations__", {})} |
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for attr_name, attr_value in attrs.items(): |
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if attr_name not in annotations and is_possible_field(attr_name, attr_value): |
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if attr_name in fields: |
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try: |
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if not isinstance(attr_value, fields[attr_name].type): |
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raise TypeMismatchError( |
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f"Type mismatch for field '{attr_name}' of class '{fields[attr_name].origin_cls}'. Expected {fields[attr_name].type}, got {type(attr_value)}" |
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) |
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except TypeError: |
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pass |
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annotations[attr_name] = fields[attr_name].type |
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for field_name, field_type in annotations.items(): |
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if field_name in fields and fields[field_name].final: |
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raise FinalFieldError( |
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f"Final field {field_name} defined in {fields[field_name].origin_cls} overridden in {cls}" |
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) |
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args = { |
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"name": field_name, |
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"type": field_type, |
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"origin_cls": attrs["__qualname__"], |
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} |
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if field_name in attrs: |
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field = attrs[field_name] |
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if isinstance(field, Field): |
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args = {**dataclasses.asdict(field), **args} |
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elif isinstance(field, dataclasses.Field): |
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args = { |
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"default": field.default, |
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"name": field.name, |
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"type": field.type, |
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"init": field.init, |
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"default_factory": field.default_factory, |
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**args, |
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} |
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else: |
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args["default"] = field |
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else: |
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args["default"] = dataclasses.MISSING |
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args["default_factory"] = None |
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args["required"] = True |
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field_instance = Field(**args) |
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fields[field_name] = field_instance |
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if cls.__allow_unexpected_arguments__: |
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fields["_argv"] = InternalField(name="_argv", type=tuple, default=()) |
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fields["_kwargs"] = InternalField(name="_kwargs", type=dict, default={}) |
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return fields |
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def is_dataclass(obj): |
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"""Returns True if obj is a dataclass or an instance of a |
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dataclass.""" |
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cls = obj if isinstance(obj, type) else type(obj) |
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return hasattr(cls, _FIELDS) |
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def class_fields(obj): |
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all_fields = fields(obj) |
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return [field for field in all_fields if field.origin_cls == obj.__class__.__qualname__] |
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def fields(cls): |
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return list(getattr(cls, _FIELDS).values()) |
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def fields_names(cls): |
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return list(getattr(cls, _FIELDS).keys()) |
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def final_fields(cls): |
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return [field for field in fields(cls) if field.final] |
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def required_fields(cls): |
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return [field for field in fields(cls) if field.required] |
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def abstract_fields(cls): |
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return [field for field in fields(cls) if field.abstract] |
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def is_abstract_field(field): |
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return field.abstract |
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def is_final_field(field): |
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return field.final |
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def get_field_default(field): |
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if field.default_factory is not None: |
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return field.default_factory() |
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else: |
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return field.default |
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def asdict(obj): |
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assert is_dataclass(obj), f"{obj} must be a dataclass, got {type(obj)} with bases {obj.__class__.__bases__}" |
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return _asdict_inner(obj) |
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def _asdict_inner(obj): |
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if is_dataclass(obj): |
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return obj.to_dict() |
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elif isinstance(obj, tuple) and hasattr(obj, "_fields"): |
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return type(obj)(*[_asdict_inner(v) for v in obj]) |
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elif isinstance(obj, (list, tuple)): |
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return type(obj)([_asdict_inner(v) for v in obj]) |
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elif isinstance(obj, dict): |
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return type(obj)({_asdict_inner(k): _asdict_inner(v) for k, v in obj.items()}) |
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else: |
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return copy.deepcopy(obj) |
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class DataclassMeta(ABCMeta): |
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""" |
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Metaclass for Dataclass. |
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Checks for final fields when a subclass is created. |
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""" |
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@final |
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def __init__(cls, name, bases, attrs): |
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super().__init__(name, bases, attrs) |
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setattr(cls, _FIELDS, get_fields(cls, attrs)) |
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class Dataclass(metaclass=DataclassMeta): |
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""" |
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Base class for data-like classes that provides additional functionality and control |
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over Python's built-in @dataclasses.dataclass decorator. Other classes can inherit from |
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this class to get the benefits of this implementation. As a base class, it ensures that |
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all subclasses will automatically be data classes. |
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The usage and field definitions are similar to Python's built-in @dataclasses.dataclass decorator. |
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However, this implementation provides additional classes for defining "final", "required", |
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and "abstract" fields. |
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Key enhancements of this custom implementation: |
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1. Automatic Data Class Creation: All subclasses automatically become data classes, |
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without needing to use the @dataclasses.dataclass decorator. |
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2. Field Immutability: Supports creation of "final" fields (using FinalField class) that |
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cannot be overridden by subclasses. This functionality is not natively supported in |
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Python or in the built-in dataclasses module. |
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3. Required Fields: Supports creation of "required" fields (using RequiredField class) that |
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must be provided when creating an instance of the class, adding a level of validation |
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not present in the built-in dataclasses module. |
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4. Abstract Fields: Supports creation of "abstract" fields (using AbstractField class) that |
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must be overridden by any non-abstract subclass. This is similar to abstract methods in |
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an abc.ABC class, but applied to fields. |
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5. Type Checking: Performs type checking to ensure that if a field is redefined in a subclass, |
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the type of the field remains consistent, adding static type checking not natively supported |
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in Python. |
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6. Error Definitions: Defines specific error types (FinalFieldError, RequiredFieldError, |
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AbstractFieldError, TypeMismatchError) for providing detailed error information during debugging. |
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7. MetaClass Usage: Uses a metaclass (DataclassMeta) for customization of class creation, |
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allowing checks and alterations to be made at the time of class creation, providing more control. |
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Example: |
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``` |
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class Parent(Dataclass): |
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final_field: int = FinalField(1) # this field cannot be overridden |
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required_field: str = RequiredField() |
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also_required_field: float |
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abstract_field: int = AbstractField() |
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class Child(Parent): |
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abstract_field = 3 # now once overridden, this is no longer abstract |
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required_field = Field(name="required_field", default="provided", type=str) |
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class Mixin(Dataclass): |
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mixin_field = Field(name="mixin_field", default="mixin", type=str) |
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class GrandChild(Child, Mixin): |
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pass |
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grand_child = GrandChild() |
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print(grand_child.to_dict()) |
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``` |
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""" |
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__allow_unexpected_arguments__ = False |
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@final |
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def __init__(self, *argv, **kwargs): |
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""" |
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Initialize fields based on kwargs. |
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Checks for abstract fields when an instance is created. |
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""" |
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_init_fields = [field for field in fields(self) if field.init] |
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_init_fields_names = [field.name for field in _init_fields] |
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_init_positional_fields_names = [field.name for field in _init_fields if field.also_positional] |
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for name in _init_positional_fields_names[: len(argv)]: |
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if name in kwargs: |
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raise TypeError(f"{self.__class__.__name__} got multiple values for argument '{name}'") |
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expected_unexpected_argv = kwargs.pop("_argv", None) |
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if len(argv) <= len(_init_positional_fields_names): |
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unexpected_argv = [] |
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else: |
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unexpected_argv = argv[len(_init_positional_fields_names) :] |
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if expected_unexpected_argv is not None: |
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assert ( |
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len(unexpected_argv) == 0 |
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), f"Cannot specify both _argv and unexpected positional arguments. Got {unexpected_argv}" |
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unexpected_argv = tuple(expected_unexpected_argv) |
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expected_unexpected_kwargs = kwargs.pop("_kwargs", None) |
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unexpected_kwargs = { |
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k: v for k, v in kwargs.items() if k not in _init_fields_names and k not in ["_argv", "_kwargs"] |
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} |
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if expected_unexpected_kwargs is not None: |
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intersection = set(unexpected_kwargs.keys()) & set(expected_unexpected_kwargs.keys()) |
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assert ( |
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len(intersection) == 0 |
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), f"Cannot specify the same arguments in both _kwargs and in unexpected keyword arguments. Got {intersection} in both." |
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unexpected_kwargs = {**unexpected_kwargs, **expected_unexpected_kwargs} |
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if self.__allow_unexpected_arguments__: |
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if len(unexpected_argv) > 0: |
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kwargs["_argv"] = unexpected_argv |
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if len(unexpected_kwargs) > 0: |
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kwargs["_kwargs"] = unexpected_kwargs |
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else: |
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if len(unexpected_argv) > 0: |
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raise UnexpectedArgumentError( |
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f"Too many positional arguments {unexpected_argv} for class {self.__class__.__name__}.\nShould be only {len(_init_positional_fields_names)} positional arguments: {', '.join(_init_positional_fields_names)}" |
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) |
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if len(unexpected_kwargs) > 0: |
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raise UnexpectedArgumentError( |
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f"Unexpected keyword argument(s) {unexpected_kwargs} for class {self.__class__.__name__}.\nShould be one of: {fields_names(self)}" |
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) |
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for name, arg in zip(_init_positional_fields_names, argv): |
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kwargs[name] = arg |
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for field in abstract_fields(self): |
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raise AbstractFieldError( |
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f"Abstract field '{field.name}' of class {field.origin_cls} not implemented in {self.__class__.__name__}" |
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) |
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for field in required_fields(self): |
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if field.name not in kwargs: |
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raise RequiredFieldError( |
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f"Required field '{field.name}' of class {field.origin_cls} not set in {self.__class__.__name__}" |
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) |
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self.__pre_init__(**kwargs) |
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for field in fields(self): |
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if field.name in kwargs: |
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setattr(self, field.name, kwargs[field.name]) |
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else: |
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setattr(self, field.name, get_field_default(field)) |
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self.__post_init__() |
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@property |
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def __is_dataclass__(self) -> bool: |
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return True |
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def __pre_init__(self, **kwargs): |
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""" |
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Pre initialization hook. |
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""" |
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pass |
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def __post_init__(self): |
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""" |
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Post initialization hook. |
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""" |
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pass |
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def _to_raw_dict(self): |
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""" |
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Convert to raw dict |
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""" |
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return {field.name: getattr(self, field.name) for field in fields(self)} |
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def to_dict(self): |
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""" |
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Convert to dict. |
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""" |
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return _asdict_inner(self._to_raw_dict()) |
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def __repr__(self) -> str: |
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""" |
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String representation. |
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""" |
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return f"{self.__class__.__name__}({', '.join([f'{field.name}={repr(getattr(self, field.name))}' for field in fields(self)])})" |
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