""" This module implements a lightweight and limited alternative to pydantic's BaseModel and Field classes. It works on python 3.6+. This module IS NOT a supported API, it is meant for osc internal use only. """ import copy import inspect import sys import types from typing import get_type_hints # supported types from enum import Enum from typing import Any from typing import Dict from typing import List from typing import NewType from typing import Optional from typing import Tuple from typing import Union if sys.version_info < (3, 8): def get_origin(typ): result = getattr(typ, "__origin__", None) bases = getattr(result, "__orig_bases__", None) if bases: result = bases[0] return result else: from typing import get_origin __all__ = ( "BaseModel", "Field", "NotSet", "FromParent", "Enum", "Dict", "List", "NewType", "Optional", "Tuple", "Union", ) class NotSetClass: def __repr__(self): return "NotSet" def __bool__(self): return False NotSet = NotSetClass() class FromParent(NotSetClass): def __init__(self, field_name): self.field_name = field_name def __repr__(self): return f"FromParent(field_name={self.field_name})" class Field(property): def __init__( self, default: Any = NotSet, description: Optional[str] = None, exclude: bool = False, **extra, ): # the default value; it can be a factory function that is lazily evaluated on the first use # model sets it to None if it equals to NotSet (for better usability) self.default = default # a flag indicating, whether the default is a callable with lazy evalution self.default_is_lazy = callable(self.default) # the name of model's attribute associated with this field instance - set from the model self.name = None # the type of this field instance - set from the model self.type = None # the description of the field self.description = description # docstring - for sphinx and help() self.__doc__ = self.description if self.__doc__: # append information about the default value if isinstance(self.default, FromParent): self.__doc__ += f"\n\nDefault: inherited from parent config's field ``{self.default.field_name}``" elif self.default is not NotSet: self.__doc__ += f"\n\nDefault: ``{self.default}``" # whether to exclude this field from export self.exclude = exclude # extra fields self.extra = extra # create an instance specific of self.get() so we can annotate it in the model self.get_copy = types.FunctionType( self.get.__code__, self.get.__globals__, self.get.__name__, self.get.__defaults__, self.get.__closure__, ) # turn function into a method by binding it to the instance self.get_copy = types.MethodType(self.get_copy, self) super().__init__(fget=self.get_copy, fset=self.set, doc=description) @property def origin_type(self): origin_type = get_origin(self.type) or self.type if self.is_optional: types = [i for i in self.type.__args__ if i != type(None)] return get_origin(types[0]) or types[0] return origin_type @property def inner_type(self): if self.is_optional: types = [i for i in self.type.__args__ if i != type(None)] type_ = types[0] else: type_ = self.type if get_origin(type_) != list: return None if not hasattr(type_, "__args__"): return None inner_type = [i for i in type_.__args__ if i != type(None)][0] return inner_type @property def is_optional(self): origin_type = get_origin(self.type) or self.type return origin_type == Union and len(self.type.__args__) == 2 and type(None) in self.type.__args__ @property def is_model(self): return inspect.isclass(self.origin_type) and issubclass(self.origin_type, BaseModel) @property def is_model_list(self): return inspect.isclass(self.inner_type) and issubclass(self.inner_type, BaseModel) def validate_type(self, value, expected_types=None): if not expected_types and self.is_optional and value is None: return True if expected_types is None: expected_types = (self.type,) elif not isinstance(expected_types, (list, tuple)): expected_types = (expected_types,) valid_type = False for expected_type in expected_types: if valid_type: break origin_type = get_origin(expected_type) or expected_type # unwrap Union if origin_type == Union: if value is None and type(None) in expected_type.__args__: valid_type = True continue valid_type |= self.validate_type(value, expected_types=expected_type.__args__) continue # unwrap NewType if (callable(NewType) or isinstance(origin_type, NewType)) and hasattr(origin_type, "__supertype__"): valid_type |= self.validate_type(value, expected_types=(origin_type.__supertype__,)) continue if ( inspect.isclass(expected_type) and issubclass(expected_type, BaseModel) and isinstance(value, (expected_type, dict)) ): valid_type = True continue if ( inspect.isclass(expected_type) and issubclass(expected_type, Enum) ): # test if the value is part of the enum expected_type(value) valid_type = True continue if not isinstance(value, origin_type): msg = f"Field '{self.name}' has type '{self.type}'. Cannot assign a value with type '{type(value).__name__}'." raise TypeError(msg) # the type annotation has no arguments -> no need to check those if not getattr(expected_type, "__args__", None): valid_type = True continue if origin_type in (list, tuple): valid_type_items = True for i in value: valid_type_items &= self.validate_type(i, expected_type.__args__) valid_type |= valid_type_items elif origin_type in (dict,): valid_type_items = True for k, v in value.items(): valid_type_items &= self.validate_type(k, expected_type.__args__[0]) valid_type_items &= self.validate_type(v, expected_type.__args__[1]) valid_type |= valid_type_items else: raise TypeError(f"Field '{self.name}' has unsupported type '{self.type}'.") return valid_type def get(self, obj): try: return obj._values[self.name] except KeyError: pass try: return obj._defaults[self.name] except KeyError: pass if isinstance(self.default, FromParent): if obj._parent is None: raise RuntimeError(f"The field '{self.name}' has default {self.default} but the model has no parent set") return getattr(obj._parent, self.default.field_name or self.name) if self.default is NotSet: raise RuntimeError(f"The field '{self.name}' has no default") # make a deepcopy to avoid problems with mutable defaults default = copy.deepcopy(self.default) # lazy evaluation of a factory function on first use if callable(default): default = default() # if this is a model field, convert dict to a model instance if self.is_model and isinstance(default, dict): cls = self.origin_type new_value = cls() # pylint: disable=not-callable for k, v in default.items(): setattr(new_value, k, v) default = new_value obj._defaults[self.name] = default return default def set(self, obj, value): # if this is a model field, convert dict to a model instance if self.is_model and isinstance(value, dict): # initialize a model instance from a dictionary klass = self.origin_type value = klass(**value) # pylint: disable=not-callable elif self.is_model_list and isinstance(value, list): new_value = [] for i in value: if isinstance(i, dict): klass = self.inner_type new_value.append(klass(**i)) else: new_value.append(i) value = new_value self.validate_type(value) obj._values[self.name] = value class ModelMeta(type): def __new__(mcs, name, bases, attrs): new_cls = super().__new__(mcs, name, bases, attrs) new_cls.__fields__ = {} # NOTE: dir() doesn't preserve attribute order # we need to iterate through __mro__ classes to workaround that for parent_cls in reversed(new_cls.__mro__): for field_name in parent_cls.__dict__: if field_name in new_cls.__fields__: continue field = getattr(new_cls, field_name) if not isinstance(field, Field): continue new_cls.__fields__[field_name] = field # fill model specific details back to the fields for field_name, field in new_cls.__fields__.items(): # property name associated with the field in this model field.name = field_name # field type associated with the field in this model field.type = get_type_hints(new_cls)[field_name] # set annotation for the getter so it shows up in sphinx field.get_copy.__func__.__annotations__ = {"return": field.type} # set 'None' as the default for optional fields if field.default is NotSet and field.is_optional: field.default = None return new_cls class BaseModel(metaclass=ModelMeta): __fields__: Dict[str, Field] def __setattr__(self, name, value): if getattr(self, "_allow_new_attributes", True) or hasattr(self.__class__, name) or hasattr(self, name): # allow setting properties - test if they exist in the class # also allow setting existing attributes that were previously initialized via __dict__ return super().__setattr__(name, value) raise AttributeError(f"Setting attribute '{self.__class__.__name__}.{name}' is not allowed") def __init__(self, **kwargs): self._defaults = {} # field defaults cached in field.get() self._values = {} # field values explicitly set after initializing the model self._parent = kwargs.pop("_parent", None) uninitialized_fields = [] for name, field in self.__fields__.items(): if name not in kwargs: if field.default is NotSet: uninitialized_fields.append(field.name) continue value = kwargs.pop(name) setattr(self, name, value) if kwargs: unknown_fields_str = ", ".join([f"'{i}'" for i in kwargs]) raise TypeError(f"The following kwargs of '{self.__class__.__name__}.__init__()' do not match any field: {unknown_fields_str}") if uninitialized_fields: uninitialized_fields_str = ", ".join([f"'{i}'" for i in uninitialized_fields]) raise TypeError( f"The following fields of '{self.__class__.__name__}' object are not initialized and have no default either: {uninitialized_fields_str}" ) for name, field in self.__fields__.items(): field.validate_type(getattr(self, name)) self._allow_new_attributes = False def dict(self): result = {} for name, field in self.__fields__.items(): if field.exclude: continue value = getattr(self, name) if value is not None and field.is_model: result[name] = value.dict() if value is not None and field.is_model_list: result[name] = [i.dict() for i in value] else: result[name] = value return result