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import warnings from abc import ABCMeta from copy import deepcopy from enum import Enum from functools import partial from pathlib import Path from types import FunctionType, prepare_class, resolve_bases from typing import ( TYPE_CHECKING, AbstractSet, Any, Callable, ClassVar, Dict, List, Mapping, Optional, Tuple, Type, TypeVar, Union, cast, no_type_check, overload, ) from typing_extensions import dataclass_transform from pydantic.v1.class_validators import ValidatorGroup, extract_root_validators, extract_validators, inherit_validators from pydantic.v1.config import BaseConfig, Extra, inherit_config, prepare_config from pydantic.v1.error_wrappers import ErrorWrapper, ValidationError from pydantic.v1.errors import ConfigError, DictError, ExtraError, MissingError from pydantic.v1.fields import ( MAPPING_LIKE_SHAPES, Field, ModelField, ModelPrivateAttr, PrivateAttr, Undefined, is_finalvar_with_default_val, ) from pydantic.v1.json import custom_pydantic_encoder, pydantic_encoder from pydantic.v1.parse import Protocol, load_file, load_str_bytes from pydantic.v1.schema import default_ref_template, model_schema from pydantic.v1.types import PyObject, StrBytes from pydantic.v1.typing import ( AnyCallable, get_args, get_origin, is_classvar, is_namedtuple, is_union, resolve_annotations, update_model_forward_refs, ) from pydantic.v1.utils import ( DUNDER_ATTRIBUTES, ROOT_KEY, ClassAttribute, GetterDict, Representation, ValueItems, generate_model_signature, is_valid_field, is_valid_private_name, lenient_issubclass, sequence_like, smart_deepcopy, unique_list, validate_field_name, ) if TYPE_CHECKING: from inspect import Signature from pydantic.v1.class_validators import ValidatorListDict from pydantic.v1.types import ModelOrDc from pydantic.v1.typing import ( AbstractSetIntStr, AnyClassMethod, CallableGenerator, DictAny, DictStrAny, MappingIntStrAny, ReprArgs, SetStr, TupleGenerator, ) Model = TypeVar('Model', bound='BaseModel') __all__ = 'BaseModel', 'create_model', 'validate_model' _T = TypeVar('_T') def validate_custom_root_type(fields: Dict[str, ModelField]) -> None: if len(fields) > 1: raise ValueError(f'{ROOT_KEY} cannot be mixed with other fields') def generate_hash_function(frozen: bool) -> Optional[Callable[[Any], int]]: def hash_function(self_: Any) -> int: return hash(self_.__class__) + hash(tuple(self_.__dict__.values())) return hash_function if frozen else None # If a field is of type `Callable`, its default value should be a function and cannot to ignored. ANNOTATED_FIELD_UNTOUCHED_TYPES: Tuple[Any, ...] = (property, type, classmethod, staticmethod) # When creating a `BaseModel` instance, we bypass all the methods, properties... added to the model UNTOUCHED_TYPES: Tuple[Any, ...] = (FunctionType,) + ANNOTATED_FIELD_UNTOUCHED_TYPES # Note `ModelMetaclass` refers to `BaseModel`, but is also used to *create* `BaseModel`, so we need to add this extra # (somewhat hacky) boolean to keep track of whether we've created the `BaseModel` class yet, and therefore whether it's # safe to refer to it. If it *hasn't* been created, we assume that the `__new__` call we're in the middle of is for # the `BaseModel` class, since that's defined immediately after the metaclass. _is_base_model_class_defined = False @dataclass_transform(kw_only_default=True, field_specifiers=(Field,)) class ModelMetaclass(ABCMeta): @no_type_check # noqa C901 def __new__(mcs, name, bases, namespace, **kwargs): # noqa C901 fields: Dict[str, ModelField] = {} config = BaseConfig validators: 'ValidatorListDict' = {} pre_root_validators, post_root_validators = [], [] private_attributes: Dict[str, ModelPrivateAttr] = {} base_private_attributes: Dict[str, ModelPrivateAttr] = {} slots: SetStr = namespace.get('__slots__', ()) slots = {slots} if isinstance(slots, str) else set(slots) class_vars: SetStr = set() hash_func: Optional[Callable[[Any], int]] = None for base in reversed(bases): if _is_base_model_class_defined and issubclass(base, BaseModel) and base != BaseModel: fields.update(smart_deepcopy(base.__fields__)) config = inherit_config(base.__config__, config) validators = inherit_validators(base.__validators__, validators) pre_root_validators += base.__pre_root_validators__ post_root_validators += base.__post_root_validators__ base_private_attributes.update(base.__private_attributes__) class_vars.update(base.__class_vars__) hash_func = base.__hash__ resolve_forward_refs = kwargs.pop('__resolve_forward_refs__', True) allowed_config_kwargs: SetStr = { key for key in dir(config) if not (key.startswith('__') and key.endswith('__')) # skip dunder methods and attributes } config_kwargs = {key: kwargs.pop(key) for key in kwargs.keys() & allowed_config_kwargs} config_from_namespace = namespace.get('Config') if config_kwargs and config_from_namespace: raise TypeError('Specifying config in two places is ambiguous, use either Config attribute or class kwargs') config = inherit_config(config_from_namespace, config, **config_kwargs) validators = inherit_validators(extract_validators(namespace), validators) vg = ValidatorGroup(validators) for f in fields.values(): f.set_config(config) extra_validators = vg.get_validators(f.name) if extra_validators: f.class_validators.update(extra_validators) # re-run prepare to add extra validators f.populate_validators() prepare_config(config, name) untouched_types = ANNOTATED_FIELD_UNTOUCHED_TYPES def is_untouched(v: Any) -> bool: return isinstance(v, untouched_types) or v.__class__.__name__ == 'cython_function_or_method' if (namespace.get('__module__'), namespace.get('__qualname__')) != ('pydantic.main', 'BaseModel'): annotations = resolve_annotations(namespace.get('__annotations__', {}), namespace.get('__module__', None)) # annotation only fields need to come first in fields for ann_name, ann_type in annotations.items(): if is_classvar(ann_type): class_vars.add(ann_name) elif is_finalvar_with_default_val(ann_type, namespace.get(ann_name, Undefined)): class_vars.add(ann_name) elif is_valid_field(ann_name): validate_field_name(bases, ann_name) value = namespace.get(ann_name, Undefined) allowed_types = get_args(ann_type) if is_union(get_origin(ann_type)) else (ann_type,) if ( is_untouched(value) and ann_type != PyObject and not any( lenient_issubclass(get_origin(allowed_type), Type) for allowed_type in allowed_types ) ): continue fields[ann_name] = ModelField.infer( name=ann_name, value=value, annotation=ann_type, class_validators=vg.get_validators(ann_name), config=config, ) elif ann_name not in namespace and config.underscore_attrs_are_private: private_attributes[ann_name] = PrivateAttr() untouched_types = UNTOUCHED_TYPES + config.keep_untouched for var_name, value in namespace.items(): can_be_changed = var_name not in class_vars and not is_untouched(value) if isinstance(value, ModelPrivateAttr): if not is_valid_private_name(var_name): raise NameError( f'Private attributes "{var_name}" must not be a valid field name; ' f'Use sunder or dunder names, e. g. "_{var_name}" or "__{var_name}__"' ) private_attributes[var_name] = value elif config.underscore_attrs_are_private and is_valid_private_name(var_name) and can_be_changed: private_attributes[var_name] = PrivateAttr(default=value) elif is_valid_field(var_name) and var_name not in annotations and can_be_changed: validate_field_name(bases, var_name) inferred = ModelField.infer( name=var_name, value=value, annotation=annotations.get(var_name, Undefined), class_validators=vg.get_validators(var_name), config=config, ) if var_name in fields: if lenient_issubclass(inferred.type_, fields[var_name].type_): inferred.type_ = fields[var_name].type_ else: raise TypeError( f'The type of {name}.{var_name} differs from the new default value; ' f'if you wish to change the type of this field, please use a type annotation' ) fields[var_name] = inferred _custom_root_type = ROOT_KEY in fields if _custom_root_type: validate_custom_root_type(fields) vg.check_for_unused() if config.json_encoders: json_encoder = partial(custom_pydantic_encoder, config.json_encoders) else: json_encoder = pydantic_encoder pre_rv_new, post_rv_new = extract_root_validators(namespace) if hash_func is None: hash_func = generate_hash_function(config.frozen) exclude_from_namespace = fields | private_attributes.keys() | {'__slots__'} new_namespace = { '__config__': config, '__fields__': fields, '__exclude_fields__': { name: field.field_info.exclude for name, field in fields.items() if field.field_info.exclude is not None } or None, '__include_fields__': { name: field.field_info.include for name, field in fields.items() if field.field_info.include is not None } or None, '__validators__': vg.validators, '__pre_root_validators__': unique_list( pre_root_validators + pre_rv_new, name_factory=lambda v: v.__name__, ), '__post_root_validators__': unique_list( post_root_validators + post_rv_new, name_factory=lambda skip_on_failure_and_v: skip_on_failure_and_v[1].__name__, ), '__schema_cache__': {}, '__json_encoder__': staticmethod(json_encoder), '__custom_root_type__': _custom_root_type, '__private_attributes__': {**base_private_attributes, **private_attributes}, '__slots__': slots | private_attributes.keys(), '__hash__': hash_func, '__class_vars__': class_vars, **{n: v for n, v in namespace.items() if n not in exclude_from_namespace}, } cls = super().__new__(mcs, name, bases, new_namespace, **kwargs) # set __signature__ attr only for model class, but not for its instances cls.__signature__ = ClassAttribute('__signature__', generate_model_signature(cls.__init__, fields, config)) if resolve_forward_refs: cls.__try_update_forward_refs__() # preserve `__set_name__` protocol defined in https://peps.python.org/pep-0487 # for attributes not in `new_namespace` (e.g. private attributes) for name, obj in namespace.items(): if name not in new_namespace: set_name = getattr(obj, '__set_name__', None) if callable(set_name): set_name(cls, name) return cls def __instancecheck__(self, instance: Any) -> bool: """ Avoid calling ABC _abc_subclasscheck unless we're pretty sure. See #3829 and python/cpython#92810 """ return hasattr(instance, '__fields__') and super().__instancecheck__(instance) object_setattr = object.__setattr__ class BaseModel(Representation, metaclass=ModelMetaclass): if TYPE_CHECKING: # populated by the metaclass, defined here to help IDEs only __fields__: ClassVar[Dict[str, ModelField]] = {} __include_fields__: ClassVar[Optional[Mapping[str, Any]]] = None __exclude_fields__: ClassVar[Optional[Mapping[str, Any]]] = None __validators__: ClassVar[Dict[str, AnyCallable]] = {} __pre_root_validators__: ClassVar[List[AnyCallable]] __post_root_validators__: ClassVar[List[Tuple[bool, AnyCallable]]] __config__: ClassVar[Type[BaseConfig]] = BaseConfig __json_encoder__: ClassVar[Callable[[Any], Any]] = lambda x: x __schema_cache__: ClassVar['DictAny'] = {} __custom_root_type__: ClassVar[bool] = False __signature__: ClassVar['Signature'] __private_attributes__: ClassVar[Dict[str, ModelPrivateAttr]] __class_vars__: ClassVar[SetStr] __fields_set__: ClassVar[SetStr] = set() Config = BaseConfig __slots__ = ('__dict__', '__fields_set__') __doc__ = '' # Null out the Representation docstring def __init__(__pydantic_self__, **data: Any) -> None: """ Create a new model by parsing and validating input data from keyword arguments. Raises ValidationError if the input data cannot be parsed to form a valid model. """ # Uses something other than `self` the first arg to allow "self" as a settable attribute values, fields_set, validation_error = validate_model(__pydantic_self__.__class__, data) if validation_error: raise validation_error try: object_setattr(__pydantic_self__, '__dict__', values) except TypeError as e: raise TypeError( 'Model values must be a dict; you may not have returned a dictionary from a root validator' ) from e object_setattr(__pydantic_self__, '__fields_set__', fields_set) __pydantic_self__._init_private_attributes() @no_type_check def __setattr__(self, name, value): # noqa: C901 (ignore complexity) if name in self.__private_attributes__ or name in DUNDER_ATTRIBUTES: return object_setattr(self, name, value) if self.__config__.extra is not Extra.allow and name not in self.__fields__: raise ValueError(f'"{self.__class__.__name__}" object has no field "{name}"') elif not self.__config__.allow_mutation or self.__config__.frozen: raise TypeError(f'"{self.__class__.__name__}" is immutable and does not support item assignment') elif name in self.__fields__ and self.__fields__[name].final: raise TypeError( f'"{self.__class__.__name__}" object "{name}" field is final and does not support reassignment' ) elif self.__config__.validate_assignment: new_values = {**self.__dict__, name: value} for validator in self.__pre_root_validators__: try: new_values = validator(self.__class__, new_values) except (ValueError, TypeError, AssertionError) as exc: raise ValidationError([ErrorWrapper(exc, loc=ROOT_KEY)], self.__class__) known_field = self.__fields__.get(name, None) if known_field: # We want to # - make sure validators are called without the current value for this field inside `values` # - keep other values (e.g. submodels) untouched (using `BaseModel.dict()` will change them into dicts) # - keep the order of the fields if not known_field.field_info.allow_mutation: raise TypeError(f'"{known_field.name}" has allow_mutation set to False and cannot be assigned') dict_without_original_value = {k: v for k, v in self.__dict__.items() if k != name} value, error_ = known_field.validate(value, dict_without_original_value, loc=name, cls=self.__class__) if error_: raise ValidationError([error_], self.__class__) else: new_values[name] = value errors = [] for skip_on_failure, validator in self.__post_root_validators__: if skip_on_failure and errors: continue try: new_values = validator(self.__class__, new_values) except (ValueError, TypeError, AssertionError) as exc: errors.append(ErrorWrapper(exc, loc=ROOT_KEY)) if errors: raise ValidationError(errors, self.__class__) # update the whole __dict__ as other values than just `value` # may be changed (e.g. with `root_validator`) object_setattr(self, '__dict__', new_values) else: self.__dict__[name] = value self.__fields_set__.add(name) def __getstate__(self) -> 'DictAny': private_attrs = ((k, getattr(self, k, Undefined)) for k in self.__private_attributes__) return { '__dict__': self.__dict__, '__fields_set__': self.__fields_set__, '__private_attribute_values__': {k: v for k, v in private_attrs if v is not Undefined}, } def __setstate__(self, state: 'DictAny') -> None: object_setattr(self, '__dict__', state['__dict__']) object_setattr(self, '__fields_set__', state['__fields_set__']) for name, value in state.get('__private_attribute_values__', {}).items(): object_setattr(self, name, value) def _init_private_attributes(self) -> None: for name, private_attr in self.__private_attributes__.items(): default = private_attr.get_default() if default is not Undefined: object_setattr(self, name, default) def dict( self, *, include: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, exclude: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, by_alias: bool = False, skip_defaults: Optional[bool] = None, exclude_unset: bool = False, exclude_defaults: bool = False, exclude_none: bool = False, ) -> 'DictStrAny': """ Generate a dictionary representation of the model, optionally specifying which fields to include or exclude. """ if skip_defaults is not None: warnings.warn( f'{self.__class__.__name__}.dict(): "skip_defaults" is deprecated and replaced by "exclude_unset"', DeprecationWarning, ) exclude_unset = skip_defaults return dict( self._iter( to_dict=True, by_alias=by_alias, include=include, exclude=exclude, exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, exclude_none=exclude_none, ) ) def json( self, *, include: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, exclude: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, by_alias: bool = False, skip_defaults: Optional[bool] = None, exclude_unset: bool = False, exclude_defaults: bool = False, exclude_none: bool = False, encoder: Optional[Callable[[Any], Any]] = None, models_as_dict: bool = True, **dumps_kwargs: Any, ) -> str: """ Generate a JSON representation of the model, `include` and `exclude` arguments as per `dict()`. `encoder` is an optional function to supply as `default` to json.dumps(), other arguments as per `json.dumps()`. """ if skip_defaults is not None: warnings.warn( f'{self.__class__.__name__}.json(): "skip_defaults" is deprecated and replaced by "exclude_unset"', DeprecationWarning, ) exclude_unset = skip_defaults encoder = cast(Callable[[Any], Any], encoder or self.__json_encoder__) # We don't directly call `self.dict()`, which does exactly this with `to_dict=True` # because we want to be able to keep raw `BaseModel` instances and not as `dict`. # This allows users to write custom JSON encoders for given `BaseModel` classes. data = dict( self._iter( to_dict=models_as_dict, by_alias=by_alias, include=include, exclude=exclude, exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, exclude_none=exclude_none, ) ) if self.__custom_root_type__: data = data[ROOT_KEY] return self.__config__.json_dumps(data, default=encoder, **dumps_kwargs) @classmethod def _enforce_dict_if_root(cls, obj: Any) -> Any: if cls.__custom_root_type__ and ( not (isinstance(obj, dict) and obj.keys() == {ROOT_KEY}) and not (isinstance(obj, BaseModel) and obj.__fields__.keys() == {ROOT_KEY}) or cls.__fields__[ROOT_KEY].shape in MAPPING_LIKE_SHAPES ): return {ROOT_KEY: obj} else: return obj @classmethod def parse_obj(cls: Type['Model'], obj: Any) -> 'Model': obj = cls._enforce_dict_if_root(obj) if not isinstance(obj, dict): try: obj = dict(obj) except (TypeError, ValueError) as e: exc = TypeError(f'{cls.__name__} expected dict not {obj.__class__.__name__}') raise ValidationError([ErrorWrapper(exc, loc=ROOT_KEY)], cls) from e return cls(**obj) @classmethod def parse_raw( cls: Type['Model'], b: StrBytes, *, content_type: str = None, encoding: str = 'utf8', proto: Protocol = None, allow_pickle: bool = False, ) -> 'Model': try: obj = load_str_bytes( b, proto=proto, content_type=content_type, encoding=encoding, allow_pickle=allow_pickle, json_loads=cls.__config__.json_loads, ) except (ValueError, TypeError, UnicodeDecodeError) as e: raise ValidationError([ErrorWrapper(e, loc=ROOT_KEY)], cls) return cls.parse_obj(obj) @classmethod def parse_file( cls: Type['Model'], path: Union[str, Path], *, content_type: str = None, encoding: str = 'utf8', proto: Protocol = None, allow_pickle: bool = False, ) -> 'Model': obj = load_file( path, proto=proto, content_type=content_type, encoding=encoding, allow_pickle=allow_pickle, json_loads=cls.__config__.json_loads, ) return cls.parse_obj(obj) @classmethod def from_orm(cls: Type['Model'], obj: Any) -> 'Model': if not cls.__config__.orm_mode: raise ConfigError('You must have the config attribute orm_mode=True to use from_orm') obj = {ROOT_KEY: obj} if cls.__custom_root_type__ else cls._decompose_class(obj) m = cls.__new__(cls) values, fields_set, validation_error = validate_model(cls, obj) if validation_error: raise validation_error object_setattr(m, '__dict__', values) object_setattr(m, '__fields_set__', fields_set) m._init_private_attributes() return m @classmethod def construct(cls: Type['Model'], _fields_set: Optional['SetStr'] = None, **values: Any) -> 'Model': """ Creates a new model setting __dict__ and __fields_set__ from trusted or pre-validated data. Default values are respected, but no other validation is performed. Behaves as if `Config.extra = 'allow'` was set since it adds all passed values """ m = cls.__new__(cls) fields_values: Dict[str, Any] = {} for name, field in cls.__fields__.items(): if field.alt_alias and field.alias in values: fields_values[name] = values[field.alias] elif name in values: fields_values[name] = values[name] elif not field.required: fields_values[name] = field.get_default() fields_values.update(values) object_setattr(m, '__dict__', fields_values) if _fields_set is None: _fields_set = set(values.keys()) object_setattr(m, '__fields_set__', _fields_set) m._init_private_attributes() return m def _copy_and_set_values(self: 'Model', values: 'DictStrAny', fields_set: 'SetStr', *, deep: bool) -> 'Model': if deep: # chances of having empty dict here are quite low for using smart_deepcopy values = deepcopy(values) cls = self.__class__ m = cls.__new__(cls) object_setattr(m, '__dict__', values) object_setattr(m, '__fields_set__', fields_set) for name in self.__private_attributes__: value = getattr(self, name, Undefined) if value is not Undefined: if deep: value = deepcopy(value) object_setattr(m, name, value) return m def copy( self: 'Model', *, include: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, exclude: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, update: Optional['DictStrAny'] = None, deep: bool = False, ) -> 'Model': """ Duplicate a model, optionally choose which fields to include, exclude and change. :param include: fields to include in new model :param exclude: fields to exclude from new model, as with values this takes precedence over include :param update: values to change/add in the new model. Note: the data is not validated before creating the new model: you should trust this data :param deep: set to `True` to make a deep copy of the model :return: new model instance """ values = dict( self._iter(to_dict=False, by_alias=False, include=include, exclude=exclude, exclude_unset=False), **(update or {}), ) # new `__fields_set__` can have unset optional fields with a set value in `update` kwarg if update: fields_set = self.__fields_set__ | update.keys() else: fields_set = set(self.__fields_set__) return self._copy_and_set_values(values, fields_set, deep=deep) @classmethod def schema(cls, by_alias: bool = True, ref_template: str = default_ref_template) -> 'DictStrAny': cached = cls.__schema_cache__.get((by_alias, ref_template)) if cached is not None: return cached s = model_schema(cls, by_alias=by_alias, ref_template=ref_template) cls.__schema_cache__[(by_alias, ref_template)] = s return s @classmethod def schema_json( cls, *, by_alias: bool = True, ref_template: str = default_ref_template, **dumps_kwargs: Any ) -> str: from pydantic.v1.json import pydantic_encoder return cls.__config__.json_dumps( cls.schema(by_alias=by_alias, ref_template=ref_template), default=pydantic_encoder, **dumps_kwargs ) @classmethod def __get_validators__(cls) -> 'CallableGenerator': yield cls.validate @classmethod def validate(cls: Type['Model'], value: Any) -> 'Model': if isinstance(value, cls): copy_on_model_validation = cls.__config__.copy_on_model_validation # whether to deep or shallow copy the model on validation, None means do not copy deep_copy: Optional[bool] = None if copy_on_model_validation not in {'deep', 'shallow', 'none'}: # Warn about deprecated behavior warnings.warn( "`copy_on_model_validation` should be a string: 'deep', 'shallow' or 'none'", DeprecationWarning ) if copy_on_model_validation: deep_copy = False if copy_on_model_validation == 'shallow': # shallow copy deep_copy = False elif copy_on_model_validation == 'deep': # deep copy deep_copy = True if deep_copy is None: return value else: return value._copy_and_set_values(value.__dict__, value.__fields_set__, deep=deep_copy) value = cls._enforce_dict_if_root(value) if isinstance(value, dict): return cls(**value) elif cls.__config__.orm_mode: return cls.from_orm(value) else: try: value_as_dict = dict(value) except (TypeError, ValueError) as e: raise DictError() from e return cls(**value_as_dict) @classmethod def _decompose_class(cls: Type['Model'], obj: Any) -> GetterDict: if isinstance(obj, GetterDict): return obj return cls.__config__.getter_dict(obj) @classmethod @no_type_check def _get_value( cls, v: Any, to_dict: bool, by_alias: bool, include: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']], exclude: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']], exclude_unset: bool, exclude_defaults: bool, exclude_none: bool, ) -> Any: if isinstance(v, BaseModel): if to_dict: v_dict = v.dict( by_alias=by_alias, exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, include=include, exclude=exclude, exclude_none=exclude_none, ) if ROOT_KEY in v_dict: return v_dict[ROOT_KEY] return v_dict else: return v.copy(include=include, exclude=exclude) value_exclude = ValueItems(v, exclude) if exclude else None value_include = ValueItems(v, include) if include else None if isinstance(v, dict): return { k_: cls._get_value( v_, to_dict=to_dict, by_alias=by_alias, exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, include=value_include and value_include.for_element(k_), exclude=value_exclude and value_exclude.for_element(k_), exclude_none=exclude_none, ) for k_, v_ in v.items() if (not value_exclude or not value_exclude.is_excluded(k_)) and (not value_include or value_include.is_included(k_)) } elif sequence_like(v): seq_args = ( cls._get_value( v_, to_dict=to_dict, by_alias=by_alias, exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, include=value_include and value_include.for_element(i), exclude=value_exclude and value_exclude.for_element(i), exclude_none=exclude_none, ) for i, v_ in enumerate(v) if (not value_exclude or not value_exclude.is_excluded(i)) and (not value_include or value_include.is_included(i)) ) return v.__class__(*seq_args) if is_namedtuple(v.__class__) else v.__class__(seq_args) elif isinstance(v, Enum) and getattr(cls.Config, 'use_enum_values', False): return v.value else: return v @classmethod def __try_update_forward_refs__(cls, **localns: Any) -> None: """ Same as update_forward_refs but will not raise exception when forward references are not defined. """ update_model_forward_refs(cls, cls.__fields__.values(), cls.__config__.json_encoders, localns, (NameError,)) @classmethod def update_forward_refs(cls, **localns: Any) -> None: """ Try to update ForwardRefs on fields based on this Model, globalns and localns. """ update_model_forward_refs(cls, cls.__fields__.values(), cls.__config__.json_encoders, localns) def __iter__(self) -> 'TupleGenerator': """ so `dict(model)` works """ yield from self.__dict__.items() def _iter( self, to_dict: bool = False, by_alias: bool = False, include: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, exclude: Optional[Union['AbstractSetIntStr', 'MappingIntStrAny']] = None, exclude_unset: bool = False, exclude_defaults: bool = False, exclude_none: bool = False, ) -> 'TupleGenerator': # Merge field set excludes with explicit exclude parameter with explicit overriding field set options. # The extra "is not None" guards are not logically necessary but optimizes performance for the simple case. if exclude is not None or self.__exclude_fields__ is not None: exclude = ValueItems.merge(self.__exclude_fields__, exclude) if include is not None or self.__include_fields__ is not None: include = ValueItems.merge(self.__include_fields__, include, intersect=True) allowed_keys = self._calculate_keys( include=include, exclude=exclude, exclude_unset=exclude_unset # type: ignore ) if allowed_keys is None and not (to_dict or by_alias or exclude_unset or exclude_defaults or exclude_none): # huge boost for plain _iter() yield from self.__dict__.items() return value_exclude = ValueItems(self, exclude) if exclude is not None else None value_include = ValueItems(self, include) if include is not None else None for field_key, v in self.__dict__.items(): if (allowed_keys is not None and field_key not in allowed_keys) or (exclude_none and v is None): continue if exclude_defaults: model_field = self.__fields__.get(field_key) if not getattr(model_field, 'required', True) and getattr(model_field, 'default', _missing) == v: continue if by_alias and field_key in self.__fields__: dict_key = self.__fields__[field_key].alias else: dict_key = field_key if to_dict or value_include or value_exclude: v = self._get_value( v, to_dict=to_dict, by_alias=by_alias, include=value_include and value_include.for_element(field_key), exclude=value_exclude and value_exclude.for_element(field_key), exclude_unset=exclude_unset, exclude_defaults=exclude_defaults, exclude_none=exclude_none, ) yield dict_key, v def _calculate_keys( self, include: Optional['MappingIntStrAny'], exclude: Optional['MappingIntStrAny'], exclude_unset: bool, update: Optional['DictStrAny'] = None, ) -> Optional[AbstractSet[str]]: if include is None and exclude is None and exclude_unset is False: return None keys: AbstractSet[str] if exclude_unset: keys = self.__fields_set__.copy() else: keys = self.__dict__.keys() if include is not None: keys &= include.keys() if update: keys -= update.keys() if exclude: keys -= {k for k, v in exclude.items() if ValueItems.is_true(v)} return keys def __eq__(self, other: Any) -> bool: if isinstance(other, BaseModel): return self.dict() == other.dict() else: return self.dict() == other def __repr_args__(self) -> 'ReprArgs': return [ (k, v) for k, v in self.__dict__.items() if k not in DUNDER_ATTRIBUTES and (k not in self.__fields__ or self.__fields__[k].field_info.repr) ] _is_base_model_class_defined = True @overload def create_model( __model_name: str, *, __config__: Optional[Type[BaseConfig]] = None, __base__: None = None, __module__: str = __name__, __validators__: Dict[str, 'AnyClassMethod'] = None, __cls_kwargs__: Dict[str, Any] = None, **field_definitions: Any, ) -> Type['BaseModel']: ... @overload def create_model( __model_name: str, *, __config__: Optional[Type[BaseConfig]] = None, __base__: Union[Type['Model'], Tuple[Type['Model'], ...]], __module__: str = __name__, __validators__: Dict[str, 'AnyClassMethod'] = None, __cls_kwargs__: Dict[str, Any] = None, **field_definitions: Any, ) -> Type['Model']: ... def create_model( __model_name: str, *, __config__: Optional[Type[BaseConfig]] = None, __base__: Union[None, Type['Model'], Tuple[Type['Model'], ...]] = None, __module__: str = __name__, __validators__: Dict[str, 'AnyClassMethod'] = None, __cls_kwargs__: Dict[str, Any] = None, __slots__: Optional[Tuple[str, ...]] = None, **field_definitions: Any, ) -> Type['Model']: """ Dynamically create a model. :param __model_name: name of the created model :param __config__: config class to use for the new model :param __base__: base class for the new model to inherit from :param __module__: module of the created model :param __validators__: a dict of method names and @validator class methods :param __cls_kwargs__: a dict for class creation :param __slots__: Deprecated, `__slots__` should not be passed to `create_model` :param field_definitions: fields of the model (or extra fields if a base is supplied) in the format `<name>=(<type>, <default default>)` or `<name>=<default value>, e.g. `foobar=(str, ...)` or `foobar=123`, or, for complex use-cases, in the format `<name>=<Field>` or `<name>=(<type>, <FieldInfo>)`, e.g. `foo=Field(datetime, default_factory=datetime.utcnow, alias='bar')` or `foo=(str, FieldInfo(title='Foo'))` """ if __slots__ is not None: # __slots__ will be ignored from here on warnings.warn('__slots__ should not be passed to create_model', RuntimeWarning) if __base__ is not None: if __config__ is not None: raise ConfigError('to avoid confusion __config__ and __base__ cannot be used together') if not isinstance(__base__, tuple): __base__ = (__base__,) else: __base__ = (cast(Type['Model'], BaseModel),) __cls_kwargs__ = __cls_kwargs__ or {} fields = {} annotations = {} for f_name, f_def in field_definitions.items(): if not is_valid_field(f_name): warnings.warn(f'fields may not start with an underscore, ignoring "{f_name}"', RuntimeWarning) if isinstance(f_def, tuple): try: f_annotation, f_value = f_def except ValueError as e: raise ConfigError( 'field definitions should either be a tuple of (<type>, <default>) or just a ' 'default value, unfortunately this means tuples as ' 'default values are not allowed' ) from e else: f_annotation, f_value = None, f_def if f_annotation: annotations[f_name] = f_annotation fields[f_name] = f_value namespace: 'DictStrAny' = {'__annotations__': annotations, '__module__': __module__} if __validators__: namespace.update(__validators__) namespace.update(fields) if __config__: namespace['Config'] = inherit_config(__config__, BaseConfig) resolved_bases = resolve_bases(__base__) meta, ns, kwds = prepare_class(__model_name, resolved_bases, kwds=__cls_kwargs__) if resolved_bases is not __base__: ns['__orig_bases__'] = __base__ namespace.update(ns) return meta(__model_name, resolved_bases, namespace, **kwds) _missing = object() def validate_model( # noqa: C901 (ignore complexity) model: Type[BaseModel], input_data: 'DictStrAny', cls: 'ModelOrDc' = None ) -> Tuple['DictStrAny', 'SetStr', Optional[ValidationError]]: """ validate data against a model. """ values = {} errors = [] # input_data names, possibly alias names_used = set() # field names, never aliases fields_set = set() config = model.__config__ check_extra = config.extra is not Extra.ignore cls_ = cls or model for validator in model.__pre_root_validators__: try: input_data = validator(cls_, input_data) except (ValueError, TypeError, AssertionError) as exc: return {}, set(), ValidationError([ErrorWrapper(exc, loc=ROOT_KEY)], cls_) for name, field in model.__fields__.items(): value = input_data.get(field.alias, _missing) using_name = False if value is _missing and config.allow_population_by_field_name and field.alt_alias: value = input_data.get(field.name, _missing) using_name = True if value is _missing: if field.required: errors.append(ErrorWrapper(MissingError(), loc=field.alias)) continue value = field.get_default() if not config.validate_all and not field.validate_always: values[name] = value continue else: fields_set.add(name) if check_extra: names_used.add(field.name if using_name else field.alias) v_, errors_ = field.validate(value, values, loc=field.alias, cls=cls_) if isinstance(errors_, ErrorWrapper): errors.append(errors_) elif isinstance(errors_, list): errors.extend(errors_) else: values[name] = v_ if check_extra: if isinstance(input_data, GetterDict): extra = input_data.extra_keys() - names_used else: extra = input_data.keys() - names_used if extra: fields_set |= extra if config.extra is Extra.allow: for f in extra: values[f] = input_data[f] else: for f in sorted(extra): errors.append(ErrorWrapper(ExtraError(), loc=f)) for skip_on_failure, validator in model.__post_root_validators__: if skip_on_failure and errors: continue try: values = validator(cls_, values) except (ValueError, TypeError, AssertionError) as exc: errors.append(ErrorWrapper(exc, loc=ROOT_KEY)) if errors: return values, fields_set, ValidationError(errors, cls_) else: return values, fields_set, None