from configparser import ConfigParser from typing import Any, Callable, Dict, List, Optional, Set, Tuple, Type as TypingType, Union from mypy.errorcodes import ErrorCode from mypy.nodes import ( ARG_NAMED, ARG_NAMED_OPT, ARG_OPT, ARG_POS, ARG_STAR2, MDEF, Argument, AssignmentStmt, Block, CallExpr, ClassDef, Context, Decorator, EllipsisExpr, FuncBase, FuncDef, JsonDict, MemberExpr, NameExpr, PassStmt, PlaceholderNode, RefExpr, StrExpr, SymbolNode, SymbolTableNode, TempNode, TypeInfo, TypeVarExpr, Var, ) from mypy.options import Options from mypy.plugin import ( CheckerPluginInterface, ClassDefContext, FunctionContext, MethodContext, Plugin, SemanticAnalyzerPluginInterface, ) from mypy.plugins import dataclasses from mypy.semanal import set_callable_name # type: ignore from mypy.server.trigger import make_wildcard_trigger from mypy.types import ( AnyType, CallableType, Instance, NoneType, Overloaded, Type, TypeOfAny, TypeType, TypeVarType, UnionType, get_proper_type, ) from mypy.typevars import fill_typevars from mypy.util import get_unique_redefinition_name from mypy.version import __version__ as mypy_version from pydantic.utils import is_valid_field try: from mypy.types import TypeVarDef # type: ignore[attr-defined] except ImportError: # pragma: no cover # Backward-compatible with TypeVarDef from Mypy 0.910. from mypy.types import TypeVarType as TypeVarDef CONFIGFILE_KEY = 'pydantic-mypy' METADATA_KEY = 'pydantic-mypy-metadata' BASEMODEL_FULLNAME = 'pydantic.main.BaseModel' BASESETTINGS_FULLNAME = 'pydantic.env_settings.BaseSettings' FIELD_FULLNAME = 'pydantic.fields.Field' DATACLASS_FULLNAME = 'pydantic.dataclasses.dataclass' def parse_mypy_version(version: str) -> Tuple[int, ...]: return tuple(int(part) for part in version.split('+', 1)[0].split('.')) BUILTINS_NAME = 'builtins' if parse_mypy_version(mypy_version) >= (0, 930) else '__builtins__' def plugin(version: str) -> 'TypingType[Plugin]': """ `version` is the mypy version string We might want to use this to print a warning if the mypy version being used is newer, or especially older, than we expect (or need). """ return PydanticPlugin class PydanticPlugin(Plugin): def __init__(self, options: Options) -> None: self.plugin_config = PydanticPluginConfig(options) super().__init__(options) def get_base_class_hook(self, fullname: str) -> 'Optional[Callable[[ClassDefContext], None]]': sym = self.lookup_fully_qualified(fullname) if sym and isinstance(sym.node, TypeInfo): # pragma: no branch # No branching may occur if the mypy cache has not been cleared if any(get_fullname(base) == BASEMODEL_FULLNAME for base in sym.node.mro): return self._pydantic_model_class_maker_callback return None def get_function_hook(self, fullname: str) -> 'Optional[Callable[[FunctionContext], Type]]': sym = self.lookup_fully_qualified(fullname) if sym and sym.fullname == FIELD_FULLNAME: return self._pydantic_field_callback return None def get_method_hook(self, fullname: str) -> Optional[Callable[[MethodContext], Type]]: if fullname.endswith('.from_orm'): return from_orm_callback return None def get_class_decorator_hook(self, fullname: str) -> Optional[Callable[[ClassDefContext], None]]: if fullname == DATACLASS_FULLNAME: return dataclasses.dataclass_class_maker_callback # type: ignore[return-value] return None def _pydantic_model_class_maker_callback(self, ctx: ClassDefContext) -> None: transformer = PydanticModelTransformer(ctx, self.plugin_config) transformer.transform() def _pydantic_field_callback(self, ctx: FunctionContext) -> 'Type': """ Extract the type of the `default` argument from the Field function, and use it as the return type. In particular: * Check whether the default and default_factory argument is specified. * Output an error if both are specified. * Retrieve the type of the argument which is specified, and use it as return type for the function. """ default_any_type = ctx.default_return_type assert ctx.callee_arg_names[0] == 'default', '"default" is no longer first argument in Field()' assert ctx.callee_arg_names[1] == 'default_factory', '"default_factory" is no longer second argument in Field()' default_args = ctx.args[0] default_factory_args = ctx.args[1] if default_args and default_factory_args: error_default_and_default_factory_specified(ctx.api, ctx.context) return default_any_type if default_args: default_type = ctx.arg_types[0][0] default_arg = default_args[0] # Fallback to default Any type if the field is required if not isinstance(default_arg, EllipsisExpr): return default_type elif default_factory_args: default_factory_type = ctx.arg_types[1][0] # Functions which use `ParamSpec` can be overloaded, exposing the callable's types as a parameter # Pydantic calls the default factory without any argument, so we retrieve the first item if isinstance(default_factory_type, Overloaded): if float(mypy_version) > 0.910: default_factory_type = default_factory_type.items[0] else: # Mypy0.910 exposes the items of overloaded types in a function default_factory_type = default_factory_type.items()[0] # type: ignore[operator] if isinstance(default_factory_type, CallableType): return default_factory_type.ret_type return default_any_type class PydanticPluginConfig: __slots__ = ('init_forbid_extra', 'init_typed', 'warn_required_dynamic_aliases', 'warn_untyped_fields') init_forbid_extra: bool init_typed: bool warn_required_dynamic_aliases: bool warn_untyped_fields: bool def __init__(self, options: Options) -> None: if options.config_file is None: # pragma: no cover return toml_config = parse_toml(options.config_file) if toml_config is not None: config = toml_config.get('tool', {}).get('pydantic-mypy', {}) for key in self.__slots__: setting = config.get(key, False) if not isinstance(setting, bool): raise ValueError(f'Configuration value must be a boolean for key: {key}') setattr(self, key, setting) else: plugin_config = ConfigParser() plugin_config.read(options.config_file) for key in self.__slots__: setting = plugin_config.getboolean(CONFIGFILE_KEY, key, fallback=False) setattr(self, key, setting) def from_orm_callback(ctx: MethodContext) -> Type: """ Raise an error if orm_mode is not enabled """ model_type: Instance if isinstance(ctx.type, CallableType) and isinstance(ctx.type.ret_type, Instance): model_type = ctx.type.ret_type # called on the class elif isinstance(ctx.type, Instance): model_type = ctx.type # called on an instance (unusual, but still valid) else: # pragma: no cover detail = f'ctx.type: {ctx.type} (of type {ctx.type.__class__.__name__})' error_unexpected_behavior(detail, ctx.api, ctx.context) return ctx.default_return_type pydantic_metadata = model_type.type.metadata.get(METADATA_KEY) if pydantic_metadata is None: return ctx.default_return_type orm_mode = pydantic_metadata.get('config', {}).get('orm_mode') if orm_mode is not True: error_from_orm(get_name(model_type.type), ctx.api, ctx.context) return ctx.default_return_type class PydanticModelTransformer: tracked_config_fields: Set[str] = { 'extra', 'allow_mutation', 'frozen', 'orm_mode', 'allow_population_by_field_name', 'alias_generator', } def __init__(self, ctx: ClassDefContext, plugin_config: PydanticPluginConfig) -> None: self._ctx = ctx self.plugin_config = plugin_config def transform(self) -> None: """ Configures the BaseModel subclass according to the plugin settings. In particular: * determines the model config and fields, * adds a fields-aware signature for the initializer and construct methods * freezes the class if allow_mutation = False or frozen = True * stores the fields, config, and if the class is settings in the mypy metadata for access by subclasses """ ctx = self._ctx info = self._ctx.cls.info self.adjust_validator_signatures() config = self.collect_config() fields = self.collect_fields(config) for field in fields: if info[field.name].type is None: if not ctx.api.final_iteration: ctx.api.defer() is_settings = any(get_fullname(base) == BASESETTINGS_FULLNAME for base in info.mro[:-1]) self.add_initializer(fields, config, is_settings) self.add_construct_method(fields) self.set_frozen(fields, frozen=config.allow_mutation is False or config.frozen is True) info.metadata[METADATA_KEY] = { 'fields': {field.name: field.serialize() for field in fields}, 'config': config.set_values_dict(), } def adjust_validator_signatures(self) -> None: """When we decorate a function `f` with `pydantic.validator(...), mypy sees `f` as a regular method taking a `self` instance, even though pydantic internally wraps `f` with `classmethod` if necessary. Teach mypy this by marking any function whose outermost decorator is a `validator()` call as a classmethod. """ for name, sym in self._ctx.cls.info.names.items(): if isinstance(sym.node, Decorator): first_dec = sym.node.original_decorators[0] if ( isinstance(first_dec, CallExpr) and isinstance(first_dec.callee, NameExpr) and first_dec.callee.fullname == 'pydantic.class_validators.validator' ): sym.node.func.is_class = True def collect_config(self) -> 'ModelConfigData': """ Collects the values of the config attributes that are used by the plugin, accounting for parent classes. """ ctx = self._ctx cls = ctx.cls config = ModelConfigData() for stmt in cls.defs.body: if not isinstance(stmt, ClassDef): continue if stmt.name == 'Config': for substmt in stmt.defs.body: if not isinstance(substmt, AssignmentStmt): continue config.update(self.get_config_update(substmt)) if ( config.has_alias_generator and not config.allow_population_by_field_name and self.plugin_config.warn_required_dynamic_aliases ): error_required_dynamic_aliases(ctx.api, stmt) for info in cls.info.mro[1:]: # 0 is the current class if METADATA_KEY not in info.metadata: continue # Each class depends on the set of fields in its ancestors ctx.api.add_plugin_dependency(make_wildcard_trigger(get_fullname(info))) for name, value in info.metadata[METADATA_KEY]['config'].items(): config.setdefault(name, value) return config def collect_fields(self, model_config: 'ModelConfigData') -> List['PydanticModelField']: """ Collects the fields for the model, accounting for parent classes """ # First, collect fields belonging to the current class. ctx = self._ctx cls = self._ctx.cls fields = [] # type: List[PydanticModelField] known_fields = set() # type: Set[str] for stmt in cls.defs.body: if not isinstance(stmt, AssignmentStmt): # `and stmt.new_syntax` to require annotation continue lhs = stmt.lvalues[0] if not isinstance(lhs, NameExpr) or not is_valid_field(lhs.name): continue if not stmt.new_syntax and self.plugin_config.warn_untyped_fields: error_untyped_fields(ctx.api, stmt) # if lhs.name == '__config__': # BaseConfig not well handled; I'm not sure why yet # continue sym = cls.info.names.get(lhs.name) if sym is None: # pragma: no cover # This is likely due to a star import (see the dataclasses plugin for a more detailed explanation) # This is the same logic used in the dataclasses plugin continue node = sym.node if isinstance(node, PlaceholderNode): # pragma: no cover # See the PlaceholderNode docstring for more detail about how this can occur # Basically, it is an edge case when dealing with complex import logic # This is the same logic used in the dataclasses plugin continue if not isinstance(node, Var): # pragma: no cover # Don't know if this edge case still happens with the `is_valid_field` check above # but better safe than sorry continue # x: ClassVar[int] is ignored by dataclasses. if node.is_classvar: continue is_required = self.get_is_required(cls, stmt, lhs) alias, has_dynamic_alias = self.get_alias_info(stmt) if ( has_dynamic_alias and not model_config.allow_population_by_field_name and self.plugin_config.warn_required_dynamic_aliases ): error_required_dynamic_aliases(ctx.api, stmt) fields.append( PydanticModelField( name=lhs.name, is_required=is_required, alias=alias, has_dynamic_alias=has_dynamic_alias, line=stmt.line, column=stmt.column, ) ) known_fields.add(lhs.name) all_fields = fields.copy() for info in cls.info.mro[1:]: # 0 is the current class, -2 is BaseModel, -1 is object if METADATA_KEY not in info.metadata: continue superclass_fields = [] # Each class depends on the set of fields in its ancestors ctx.api.add_plugin_dependency(make_wildcard_trigger(get_fullname(info))) for name, data in info.metadata[METADATA_KEY]['fields'].items(): if name not in known_fields: field = PydanticModelField.deserialize(info, data) known_fields.add(name) superclass_fields.append(field) else: (field,) = (a for a in all_fields if a.name == name) all_fields.remove(field) superclass_fields.append(field) all_fields = superclass_fields + all_fields return all_fields def add_initializer(self, fields: List['PydanticModelField'], config: 'ModelConfigData', is_settings: bool) -> None: """ Adds a fields-aware `__init__` method to the class. The added `__init__` will be annotated with types vs. all `Any` depending on the plugin settings. """ ctx = self._ctx typed = self.plugin_config.init_typed use_alias = config.allow_population_by_field_name is not True force_all_optional = is_settings or bool( config.has_alias_generator and not config.allow_population_by_field_name ) init_arguments = self.get_field_arguments( fields, typed=typed, force_all_optional=force_all_optional, use_alias=use_alias ) if not self.should_init_forbid_extra(fields, config): var = Var('kwargs') init_arguments.append(Argument(var, AnyType(TypeOfAny.explicit), None, ARG_STAR2)) if '__init__' not in ctx.cls.info.names: add_method(ctx, '__init__', init_arguments, NoneType()) def add_construct_method(self, fields: List['PydanticModelField']) -> None: """ Adds a fully typed `construct` classmethod to the class. Similar to the fields-aware __init__ method, but always uses the field names (not aliases), and does not treat settings fields as optional. """ ctx = self._ctx set_str = ctx.api.named_type(f'{BUILTINS_NAME}.set', [ctx.api.named_type(f'{BUILTINS_NAME}.str')]) optional_set_str = UnionType([set_str, NoneType()]) fields_set_argument = Argument(Var('_fields_set', optional_set_str), optional_set_str, None, ARG_OPT) construct_arguments = self.get_field_arguments(fields, typed=True, force_all_optional=False, use_alias=False) construct_arguments = [fields_set_argument] + construct_arguments obj_type = ctx.api.named_type(f'{BUILTINS_NAME}.object') self_tvar_name = '_PydanticBaseModel' # Make sure it does not conflict with other names in the class tvar_fullname = ctx.cls.fullname + '.' + self_tvar_name tvd = TypeVarDef(self_tvar_name, tvar_fullname, -1, [], obj_type) self_tvar_expr = TypeVarExpr(self_tvar_name, tvar_fullname, [], obj_type) ctx.cls.info.names[self_tvar_name] = SymbolTableNode(MDEF, self_tvar_expr) # Backward-compatible with TypeVarDef from Mypy 0.910. if isinstance(tvd, TypeVarType): self_type = tvd else: self_type = TypeVarType(tvd) # type: ignore[call-arg] add_method( ctx, 'construct', construct_arguments, return_type=self_type, self_type=self_type, tvar_def=tvd, is_classmethod=True, ) def set_frozen(self, fields: List['PydanticModelField'], frozen: bool) -> None: """ Marks all fields as properties so that attempts to set them trigger mypy errors. This is the same approach used by the attrs and dataclasses plugins. """ info = self._ctx.cls.info for field in fields: sym_node = info.names.get(field.name) if sym_node is not None: var = sym_node.node assert isinstance(var, Var) var.is_property = frozen else: var = field.to_var(info, use_alias=False) var.info = info var.is_property = frozen var._fullname = get_fullname(info) + '.' + get_name(var) info.names[get_name(var)] = SymbolTableNode(MDEF, var) def get_config_update(self, substmt: AssignmentStmt) -> Optional['ModelConfigData']: """ Determines the config update due to a single statement in the Config class definition. Warns if a tracked config attribute is set to a value the plugin doesn't know how to interpret (e.g., an int) """ lhs = substmt.lvalues[0] if not (isinstance(lhs, NameExpr) and lhs.name in self.tracked_config_fields): return None if lhs.name == 'extra': if isinstance(substmt.rvalue, StrExpr): forbid_extra = substmt.rvalue.value == 'forbid' elif isinstance(substmt.rvalue, MemberExpr): forbid_extra = substmt.rvalue.name == 'forbid' else: error_invalid_config_value(lhs.name, self._ctx.api, substmt) return None return ModelConfigData(forbid_extra=forbid_extra) if lhs.name == 'alias_generator': has_alias_generator = True if isinstance(substmt.rvalue, NameExpr) and substmt.rvalue.fullname == 'builtins.None': has_alias_generator = False return ModelConfigData(has_alias_generator=has_alias_generator) if isinstance(substmt.rvalue, NameExpr) and substmt.rvalue.fullname in ('builtins.True', 'builtins.False'): return ModelConfigData(**{lhs.name: substmt.rvalue.fullname == 'builtins.True'}) error_invalid_config_value(lhs.name, self._ctx.api, substmt) return None @staticmethod def get_is_required(cls: ClassDef, stmt: AssignmentStmt, lhs: NameExpr) -> bool: """ Returns a boolean indicating whether the field defined in `stmt` is a required field. """ expr = stmt.rvalue if isinstance(expr, TempNode): # TempNode means annotation-only, so only non-required if Optional value_type = get_proper_type(cls.info[lhs.name].type) if isinstance(value_type, UnionType) and any(isinstance(item, NoneType) for item in value_type.items): # Annotated as Optional, or otherwise having NoneType in the union return False return True if isinstance(expr, CallExpr) and isinstance(expr.callee, RefExpr) and expr.callee.fullname == FIELD_FULLNAME: # The "default value" is a call to `Field`; at this point, the field is # only required if default is Ellipsis (i.e., `field_name: Annotation = Field(...)`) or if default_factory # is specified. for arg, name in zip(expr.args, expr.arg_names): # If name is None, then this arg is the default because it is the only positonal argument. if name is None or name == 'default': return arg.__class__ is EllipsisExpr if name == 'default_factory': return False return True # Only required if the "default value" is Ellipsis (i.e., `field_name: Annotation = ...`) return isinstance(expr, EllipsisExpr) @staticmethod def get_alias_info(stmt: AssignmentStmt) -> Tuple[Optional[str], bool]: """ Returns a pair (alias, has_dynamic_alias), extracted from the declaration of the field defined in `stmt`. `has_dynamic_alias` is True if and only if an alias is provided, but not as a string literal. If `has_dynamic_alias` is True, `alias` will be None. """ expr = stmt.rvalue if isinstance(expr, TempNode): # TempNode means annotation-only return None, False if not ( isinstance(expr, CallExpr) and isinstance(expr.callee, RefExpr) and expr.callee.fullname == FIELD_FULLNAME ): # Assigned value is not a call to pydantic.fields.Field return None, False for i, arg_name in enumerate(expr.arg_names): if arg_name != 'alias': continue arg = expr.args[i] if isinstance(arg, StrExpr): return arg.value, False else: return None, True return None, False def get_field_arguments( self, fields: List['PydanticModelField'], typed: bool, force_all_optional: bool, use_alias: bool ) -> List[Argument]: """ Helper function used during the construction of the `__init__` and `construct` method signatures. Returns a list of mypy Argument instances for use in the generated signatures. """ info = self._ctx.cls.info arguments = [ field.to_argument(info, typed=typed, force_optional=force_all_optional, use_alias=use_alias) for field in fields if not (use_alias and field.has_dynamic_alias) ] return arguments def should_init_forbid_extra(self, fields: List['PydanticModelField'], config: 'ModelConfigData') -> bool: """ Indicates whether the generated `__init__` should get a `**kwargs` at the end of its signature We disallow arbitrary kwargs if the extra config setting is "forbid", or if the plugin config says to, *unless* a required dynamic alias is present (since then we can't determine a valid signature). """ if not config.allow_population_by_field_name: if self.is_dynamic_alias_present(fields, bool(config.has_alias_generator)): return False if config.forbid_extra: return True return self.plugin_config.init_forbid_extra @staticmethod def is_dynamic_alias_present(fields: List['PydanticModelField'], has_alias_generator: bool) -> bool: """ Returns whether any fields on the model have a "dynamic alias", i.e., an alias that cannot be determined during static analysis. """ for field in fields: if field.has_dynamic_alias: return True if has_alias_generator: for field in fields: if field.alias is None: return True return False class PydanticModelField: def __init__( self, name: str, is_required: bool, alias: Optional[str], has_dynamic_alias: bool, line: int, column: int ): self.name = name self.is_required = is_required self.alias = alias self.has_dynamic_alias = has_dynamic_alias self.line = line self.column = column def to_var(self, info: TypeInfo, use_alias: bool) -> Var: name = self.name if use_alias and self.alias is not None: name = self.alias return Var(name, info[self.name].type) def to_argument(self, info: TypeInfo, typed: bool, force_optional: bool, use_alias: bool) -> Argument: if typed and info[self.name].type is not None: type_annotation = info[self.name].type else: type_annotation = AnyType(TypeOfAny.explicit) return Argument( variable=self.to_var(info, use_alias), type_annotation=type_annotation, initializer=None, kind=ARG_NAMED_OPT if force_optional or not self.is_required else ARG_NAMED, ) def serialize(self) -> JsonDict: return self.__dict__ @classmethod def deserialize(cls, info: TypeInfo, data: JsonDict) -> 'PydanticModelField': return cls(**data) class ModelConfigData: def __init__( self, forbid_extra: Optional[bool] = None, allow_mutation: Optional[bool] = None, frozen: Optional[bool] = None, orm_mode: Optional[bool] = None, allow_population_by_field_name: Optional[bool] = None, has_alias_generator: Optional[bool] = None, ): self.forbid_extra = forbid_extra self.allow_mutation = allow_mutation self.frozen = frozen self.orm_mode = orm_mode self.allow_population_by_field_name = allow_population_by_field_name self.has_alias_generator = has_alias_generator def set_values_dict(self) -> Dict[str, Any]: return {k: v for k, v in self.__dict__.items() if v is not None} def update(self, config: Optional['ModelConfigData']) -> None: if config is None: return for k, v in config.set_values_dict().items(): setattr(self, k, v) def setdefault(self, key: str, value: Any) -> None: if getattr(self, key) is None: setattr(self, key, value) ERROR_ORM = ErrorCode('pydantic-orm', 'Invalid from_orm call', 'Pydantic') ERROR_CONFIG = ErrorCode('pydantic-config', 'Invalid config value', 'Pydantic') ERROR_ALIAS = ErrorCode('pydantic-alias', 'Dynamic alias disallowed', 'Pydantic') ERROR_UNEXPECTED = ErrorCode('pydantic-unexpected', 'Unexpected behavior', 'Pydantic') ERROR_UNTYPED = ErrorCode('pydantic-field', 'Untyped field disallowed', 'Pydantic') ERROR_FIELD_DEFAULTS = ErrorCode('pydantic-field', 'Invalid Field defaults', 'Pydantic') def error_from_orm(model_name: str, api: CheckerPluginInterface, context: Context) -> None: api.fail(f'"{model_name}" does not have orm_mode=True', context, code=ERROR_ORM) def error_invalid_config_value(name: str, api: SemanticAnalyzerPluginInterface, context: Context) -> None: api.fail(f'Invalid value for "Config.{name}"', context, code=ERROR_CONFIG) def error_required_dynamic_aliases(api: SemanticAnalyzerPluginInterface, context: Context) -> None: api.fail('Required dynamic aliases disallowed', context, code=ERROR_ALIAS) def error_unexpected_behavior(detail: str, api: CheckerPluginInterface, context: Context) -> None: # pragma: no cover # Can't think of a good way to test this, but I confirmed it renders as desired by adding to a non-error path link = 'https://github.com/pydantic/pydantic/issues/new/choose' full_message = f'The pydantic mypy plugin ran into unexpected behavior: {detail}\n' full_message += f'Please consider reporting this bug at {link} so we can try to fix it!' api.fail(full_message, context, code=ERROR_UNEXPECTED) def error_untyped_fields(api: SemanticAnalyzerPluginInterface, context: Context) -> None: api.fail('Untyped fields disallowed', context, code=ERROR_UNTYPED) def error_default_and_default_factory_specified(api: CheckerPluginInterface, context: Context) -> None: api.fail('Field default and default_factory cannot be specified together', context, code=ERROR_FIELD_DEFAULTS) def add_method( ctx: ClassDefContext, name: str, args: List[Argument], return_type: Type, self_type: Optional[Type] = None, tvar_def: Optional[TypeVarDef] = None, is_classmethod: bool = False, is_new: bool = False, # is_staticmethod: bool = False, ) -> None: """ Adds a new method to a class. This can be dropped if/when https://github.com/python/mypy/issues/7301 is merged """ info = ctx.cls.info # First remove any previously generated methods with the same name # to avoid clashes and problems in the semantic analyzer. if name in info.names: sym = info.names[name] if sym.plugin_generated and isinstance(sym.node, FuncDef): ctx.cls.defs.body.remove(sym.node) # pragma: no cover self_type = self_type or fill_typevars(info) if is_classmethod or is_new: first = [Argument(Var('_cls'), TypeType.make_normalized(self_type), None, ARG_POS)] # elif is_staticmethod: # first = [] else: self_type = self_type or fill_typevars(info) first = [Argument(Var('__pydantic_self__'), self_type, None, ARG_POS)] args = first + args arg_types, arg_names, arg_kinds = [], [], [] for arg in args: assert arg.type_annotation, 'All arguments must be fully typed.' arg_types.append(arg.type_annotation) arg_names.append(get_name(arg.variable)) arg_kinds.append(arg.kind) function_type = ctx.api.named_type(f'{BUILTINS_NAME}.function') signature = CallableType(arg_types, arg_kinds, arg_names, return_type, function_type) if tvar_def: signature.variables = [tvar_def] func = FuncDef(name, args, Block([PassStmt()])) func.info = info func.type = set_callable_name(signature, func) func.is_class = is_classmethod # func.is_static = is_staticmethod func._fullname = get_fullname(info) + '.' + name func.line = info.line # NOTE: we would like the plugin generated node to dominate, but we still # need to keep any existing definitions so they get semantically analyzed. if name in info.names: # Get a nice unique name instead. r_name = get_unique_redefinition_name(name, info.names) info.names[r_name] = info.names[name] if is_classmethod: # or is_staticmethod: func.is_decorated = True v = Var(name, func.type) v.info = info v._fullname = func._fullname # if is_classmethod: v.is_classmethod = True dec = Decorator(func, [NameExpr('classmethod')], v) # else: # v.is_staticmethod = True # dec = Decorator(func, [NameExpr('staticmethod')], v) dec.line = info.line sym = SymbolTableNode(MDEF, dec) else: sym = SymbolTableNode(MDEF, func) sym.plugin_generated = True info.names[name] = sym info.defn.defs.body.append(func) def get_fullname(x: Union[FuncBase, SymbolNode]) -> str: """ Used for compatibility with mypy 0.740; can be dropped once support for 0.740 is dropped. """ fn = x.fullname if callable(fn): # pragma: no cover return fn() return fn def get_name(x: Union[FuncBase, SymbolNode]) -> str: """ Used for compatibility with mypy 0.740; can be dropped once support for 0.740 is dropped. """ fn = x.name if callable(fn): # pragma: no cover return fn() return fn def parse_toml(config_file: str) -> Optional[Dict[str, Any]]: if not config_file.endswith('.toml'): return None read_mode = 'rb' try: import tomli as toml_ except ImportError: # older versions of mypy have toml as a dependency, not tomli read_mode = 'r' try: import toml as toml_ # type: ignore[no-redef] except ImportError: # pragma: no cover import warnings warnings.warn('No TOML parser installed, cannot read configuration from `pyproject.toml`.') return None with open(config_file, read_mode) as rf: return toml_.load(rf) # type: ignore[arg-type]