import sys import types from collections.abc import Generator from contextlib import contextmanager from contextvars import ContextVar from dataclasses import dataclass from typing import ( TYPE_CHECKING, Annotated, Any, ForwardRef, TypeAlias, TypeVar, Union, get_args, get_origin, ) from annotated_types import MaxLen from pydantic import VERSION as P_VERSION from pydantic import BaseModel from pydantic import ConfigDict as ConfigDict from pydantic._internal._fields import PydanticMetadata from pydantic._internal._model_construction import ModelMetaclass as ModelMetaclass from pydantic._internal._repr import Representation as Representation from pydantic.fields import FieldInfo from pydantic_core import PydanticUndefined as Undefined from pydantic_core import PydanticUndefinedType as PydanticUndefinedType BaseConfig = ConfigDict UndefinedType = PydanticUndefinedType PYDANTIC_MINOR_VERSION = tuple(int(i) for i in P_VERSION.split(".")[:2]) if TYPE_CHECKING: from .main import RelationshipInfo, SQLModel UnionType = getattr(types, "UnionType", Union) NoneType = type(None) T = TypeVar("T") InstanceOrType: TypeAlias = T | type[T] _TSQLModel = TypeVar("_TSQLModel", bound="SQLModel") class FakeMetadata: max_length: int | None = None max_digits: int | None = None decimal_places: int | None = None @dataclass class ObjectWithUpdateWrapper: obj: Any update: dict[str, Any] def __getattribute__(self, __name: str) -> Any: update = super().__getattribute__("update") obj = super().__getattribute__("obj") if __name in update: return update[__name] return getattr(obj, __name) def _is_union_type(t: Any) -> bool: return t is UnionType or t is Union finish_init: ContextVar[bool] = ContextVar("finish_init", default=True) @contextmanager def partial_init() -> Generator[None, None, None]: token = finish_init.set(False) yield finish_init.reset(token) class SQLModelConfig(BaseConfig, total=False): table: bool | None registry: Any | None def get_model_fields(model: InstanceOrType[BaseModel]) -> dict[str, "FieldInfo"]: # TODO: refactor the usage of this function to always pass the class # not the instance, and then remove this extra check # this is for compatibility with Pydantic v3 if isinstance(model, type): use_model = model else: use_model = model.__class__ return use_model.model_fields def init_pydantic_private_attrs(new_object: InstanceOrType["SQLModel"]) -> None: object.__setattr__(new_object, "__pydantic_fields_set__", set()) object.__setattr__(new_object, "__pydantic_extra__", None) object.__setattr__(new_object, "__pydantic_private__", None) def get_annotations(class_dict: dict[str, Any]) -> dict[str, Any]: raw_annotations: dict[str, Any] = class_dict.get("__annotations__", {}) if sys.version_info >= (3, 14) and "__annotations__" not in class_dict: # See https://github.com/pydantic/pydantic/pull/11991 from annotationlib import ( Format, call_annotate_function, get_annotate_from_class_namespace, ) if annotate := get_annotate_from_class_namespace(class_dict): raw_annotations = call_annotate_function(annotate, format=Format.FORWARDREF) return raw_annotations def is_table_model_class(cls: type[Any]) -> bool: config = getattr(cls, "model_config", {}) if config: return config.get("table", False) or False return False def get_relationship_to( name: str, rel_info: "RelationshipInfo", annotation: Any, ) -> Any: origin = get_origin(annotation) use_annotation = annotation # Direct relationships (e.g. 'Team' or Team) have None as an origin if origin is None: if isinstance(use_annotation, ForwardRef): use_annotation = use_annotation.__forward_arg__ else: return use_annotation # If Union (e.g. Optional), get the real field elif _is_union_type(origin): use_annotation = get_args(annotation) if len(use_annotation) > 2: raise ValueError("Cannot have a (non-optional) union as a SQLAlchemy field") arg1, arg2 = use_annotation if arg1 is NoneType and arg2 is not NoneType: use_annotation = arg2 elif arg2 is NoneType and arg1 is not NoneType: use_annotation = arg1 else: raise ValueError( "Cannot have a Union of None and None as a SQLAlchemy field" ) # If a list, then also get the real field elif origin is list: use_annotation = get_args(annotation)[0] return get_relationship_to(name=name, rel_info=rel_info, annotation=use_annotation) def is_field_noneable(field: "FieldInfo") -> bool: if getattr(field, "nullable", Undefined) is not Undefined: return field.nullable # type: ignore origin = get_origin(field.annotation) if origin is not None and _is_union_type(origin): args = get_args(field.annotation) if any(arg is NoneType for arg in args): return True if not field.is_required(): if field.default is Undefined: return False if field.annotation is None or field.annotation is NoneType: return True return False return False def get_sa_type_from_type_annotation(annotation: Any) -> Any: # Resolve Optional fields if annotation is None: raise ValueError("Missing field type") origin = get_origin(annotation) if origin is None: return annotation elif origin is Annotated: return get_sa_type_from_type_annotation(get_args(annotation)[0]) if _is_union_type(origin): bases = get_args(annotation) if len(bases) > 2: raise ValueError("Cannot have a (non-optional) union as a SQLAlchemy field") # Non optional unions are not allowed if bases[0] is not NoneType and bases[1] is not NoneType: raise ValueError("Cannot have a (non-optional) union as a SQLAlchemy field") # Optional unions are allowed use_type = bases[0] if bases[0] is not NoneType else bases[1] return get_sa_type_from_type_annotation(use_type) return origin def get_sa_type_from_field(field: Any) -> Any: type_: Any = field.annotation return get_sa_type_from_type_annotation(type_) def get_field_metadata(field: Any) -> Any: for meta in field.metadata: if isinstance(meta, (PydanticMetadata, MaxLen)): return meta return FakeMetadata() def sqlmodel_table_construct( *, self_instance: _TSQLModel, values: dict[str, Any], _fields_set: set[str] | None = None, ) -> _TSQLModel: # Copy from Pydantic's BaseModel.construct() # Ref: https://github.com/pydantic/pydantic/blob/v2.5.2/pydantic/main.py#L198 # Modified to not include everything, only the model fields, and to # set relationships # SQLModel override to get class SQLAlchemy __dict__ attributes and # set them back in after creating the object # new_obj = cls.__new__(cls) cls = type(self_instance) old_dict = self_instance.__dict__.copy() # End SQLModel override fields_values: dict[str, Any] = {} defaults: dict[ str, Any ] = {} # keeping this separate from `fields_values` helps us compute `_fields_set` for name, field in cls.model_fields.items(): if field.alias and field.alias in values: fields_values[name] = values.pop(field.alias) elif name in values: fields_values[name] = values.pop(name) elif not field.is_required(): defaults[name] = field.get_default(call_default_factory=True) if _fields_set is None: _fields_set = set(fields_values.keys()) fields_values.update(defaults) _extra: dict[str, Any] | None = None if cls.model_config.get("extra") == "allow": _extra = {} for k, v in values.items(): _extra[k] = v # SQLModel override, do not include everything, only the model fields # else: # fields_values.update(values) # End SQLModel override # SQLModel override # Do not set __dict__, instead use setattr to trigger SQLAlchemy # object.__setattr__(new_obj, "__dict__", fields_values) # instrumentation for key, value in {**old_dict, **fields_values}.items(): setattr(self_instance, key, value) # End SQLModel override object.__setattr__(self_instance, "__pydantic_fields_set__", _fields_set) if not cls.__pydantic_root_model__: object.__setattr__(self_instance, "__pydantic_extra__", _extra) if cls.__pydantic_post_init__: self_instance.model_post_init(None) elif not cls.__pydantic_root_model__: # Note: if there are any private attributes, cls.__pydantic_post_init__ would exist # Since it doesn't, that means that `__pydantic_private__` should be set to None object.__setattr__(self_instance, "__pydantic_private__", None) # SQLModel override, set relationships # Get and set any relationship objects for key in self_instance.__sqlmodel_relationships__: value = values.get(key, Undefined) if value is not Undefined: setattr(self_instance, key, value) # End SQLModel override return self_instance def sqlmodel_validate( cls: type[_TSQLModel], obj: Any, *, strict: bool | None = None, from_attributes: bool | None = None, context: dict[str, Any] | None = None, update: dict[str, Any] | None = None, ) -> _TSQLModel: if not is_table_model_class(cls): new_obj: _TSQLModel = cls.__new__(cls) else: # If table, create the new instance normally to make SQLAlchemy create # the _sa_instance_state attribute # The wrapper of this function should use with _partial_init() with partial_init(): new_obj = cls() # SQLModel Override to get class SQLAlchemy __dict__ attributes and # set them back in after creating the object old_dict = new_obj.__dict__.copy() use_obj = obj if isinstance(obj, dict) and update: use_obj = {**obj, **update} elif update: use_obj = ObjectWithUpdateWrapper(obj=obj, update=update) cls.__pydantic_validator__.validate_python( use_obj, strict=strict, from_attributes=from_attributes, context=context, self_instance=new_obj, ) # Capture fields set to restore it later fields_set = new_obj.__pydantic_fields_set__.copy() if not is_table_model_class(cls): # If not table, normal Pydantic code, set __dict__ new_obj.__dict__ = {**old_dict, **new_obj.__dict__} else: # Do not set __dict__, instead use setattr to trigger SQLAlchemy # instrumentation for key, value in {**old_dict, **new_obj.__dict__}.items(): setattr(new_obj, key, value) # Restore fields set object.__setattr__(new_obj, "__pydantic_fields_set__", fields_set) # Get and set any relationship objects if is_table_model_class(cls): for key in new_obj.__sqlmodel_relationships__: value = getattr(use_obj, key, Undefined) if value is not Undefined: setattr(new_obj, key, value) return new_obj def sqlmodel_init(*, self: "SQLModel", data: dict[str, Any]) -> None: old_dict = self.__dict__.copy() if not is_table_model_class(self.__class__): self.__pydantic_validator__.validate_python( data, self_instance=self, ) else: sqlmodel_table_construct( self_instance=self, values=data, ) object.__setattr__( self, "__dict__", {**old_dict, **self.__dict__}, )