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# ext/mypy/apply.py # Copyright (C) 2021-2024 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php from __future__ import annotations from typing import List from typing import Optional from typing import Union from mypy.nodes import ARG_NAMED_OPT from mypy.nodes import Argument from mypy.nodes import AssignmentStmt from mypy.nodes import CallExpr from mypy.nodes import ClassDef from mypy.nodes import MDEF from mypy.nodes import MemberExpr from mypy.nodes import NameExpr from mypy.nodes import RefExpr from mypy.nodes import StrExpr from mypy.nodes import SymbolTableNode from mypy.nodes import TempNode from mypy.nodes import TypeInfo from mypy.nodes import Var from mypy.plugin import SemanticAnalyzerPluginInterface from mypy.plugins.common import add_method_to_class from mypy.types import AnyType from mypy.types import get_proper_type from mypy.types import Instance from mypy.types import NoneTyp from mypy.types import ProperType from mypy.types import TypeOfAny from mypy.types import UnboundType from mypy.types import UnionType from . import infer from . import util from .names import expr_to_mapped_constructor from .names import NAMED_TYPE_SQLA_MAPPED def apply_mypy_mapped_attr( cls: ClassDef, api: SemanticAnalyzerPluginInterface, item: Union[NameExpr, StrExpr], attributes: List[util.SQLAlchemyAttribute], ) -> None: if isinstance(item, NameExpr): name = item.name elif isinstance(item, StrExpr): name = item.value else: return None for stmt in cls.defs.body: if ( isinstance(stmt, AssignmentStmt) and isinstance(stmt.lvalues[0], NameExpr) and stmt.lvalues[0].name == name ): break else: util.fail(api, f"Can't find mapped attribute {name}", cls) return None if stmt.type is None: util.fail( api, "Statement linked from _mypy_mapped_attrs has no " "typing information", stmt, ) return None left_hand_explicit_type = get_proper_type(stmt.type) assert isinstance( left_hand_explicit_type, (Instance, UnionType, UnboundType) ) attributes.append( util.SQLAlchemyAttribute( name=name, line=item.line, column=item.column, typ=left_hand_explicit_type, info=cls.info, ) ) apply_type_to_mapped_statement( api, stmt, stmt.lvalues[0], left_hand_explicit_type, None ) def re_apply_declarative_assignments( cls: ClassDef, api: SemanticAnalyzerPluginInterface, attributes: List[util.SQLAlchemyAttribute], ) -> None: """For multiple class passes, re-apply our left-hand side types as mypy seems to reset them in place. """ mapped_attr_lookup = {attr.name: attr for attr in attributes} update_cls_metadata = False for stmt in cls.defs.body: # for a re-apply, all of our statements are AssignmentStmt; # @declared_attr calls will have been converted and this # currently seems to be preserved by mypy (but who knows if this # will change). if ( isinstance(stmt, AssignmentStmt) and isinstance(stmt.lvalues[0], NameExpr) and stmt.lvalues[0].name in mapped_attr_lookup and isinstance(stmt.lvalues[0].node, Var) ): left_node = stmt.lvalues[0].node python_type_for_type = mapped_attr_lookup[ stmt.lvalues[0].name ].type left_node_proper_type = get_proper_type(left_node.type) # if we have scanned an UnboundType and now there's a more # specific type than UnboundType, call the re-scan so we # can get that set up correctly if ( isinstance(python_type_for_type, UnboundType) and not isinstance(left_node_proper_type, UnboundType) and ( isinstance(stmt.rvalue, CallExpr) and isinstance(stmt.rvalue.callee, MemberExpr) and isinstance(stmt.rvalue.callee.expr, NameExpr) and stmt.rvalue.callee.expr.node is not None and stmt.rvalue.callee.expr.node.fullname == NAMED_TYPE_SQLA_MAPPED and stmt.rvalue.callee.name == "_empty_constructor" and isinstance(stmt.rvalue.args[0], CallExpr) and isinstance(stmt.rvalue.args[0].callee, RefExpr) ) ): new_python_type_for_type = ( infer.infer_type_from_right_hand_nameexpr( api, stmt, left_node, left_node_proper_type, stmt.rvalue.args[0].callee, ) ) if new_python_type_for_type is not None and not isinstance( new_python_type_for_type, UnboundType ): python_type_for_type = new_python_type_for_type # update the SQLAlchemyAttribute with the better # information mapped_attr_lookup[stmt.lvalues[0].name].type = ( python_type_for_type ) update_cls_metadata = True if ( not isinstance(left_node.type, Instance) or left_node.type.type.fullname != NAMED_TYPE_SQLA_MAPPED ): assert python_type_for_type is not None left_node.type = api.named_type( NAMED_TYPE_SQLA_MAPPED, [python_type_for_type] ) if update_cls_metadata: util.set_mapped_attributes(cls.info, attributes) def apply_type_to_mapped_statement( api: SemanticAnalyzerPluginInterface, stmt: AssignmentStmt, lvalue: NameExpr, left_hand_explicit_type: Optional[ProperType], python_type_for_type: Optional[ProperType], ) -> None: """Apply the Mapped[<type>] annotation and right hand object to a declarative assignment statement. This converts a Python declarative class statement such as:: class User(Base): # ... attrname = Column(Integer) To one that describes the final Python behavior to Mypy:: class User(Base): # ... attrname : Mapped[Optional[int]] = <meaningless temp node> """ left_node = lvalue.node assert isinstance(left_node, Var) # to be completely honest I have no idea what the difference between # left_node.type and stmt.type is, what it means if these are different # vs. the same, why in order to get tests to pass I have to assign # to stmt.type for the second case and not the first. this is complete # trying every combination until it works stuff. if left_hand_explicit_type is not None: lvalue.is_inferred_def = False left_node.type = api.named_type( NAMED_TYPE_SQLA_MAPPED, [left_hand_explicit_type] ) else: lvalue.is_inferred_def = False left_node.type = api.named_type( NAMED_TYPE_SQLA_MAPPED, ( [AnyType(TypeOfAny.special_form)] if python_type_for_type is None else [python_type_for_type] ), ) # so to have it skip the right side totally, we can do this: # stmt.rvalue = TempNode(AnyType(TypeOfAny.special_form)) # however, if we instead manufacture a new node that uses the old # one, then we can still get type checking for the call itself, # e.g. the Column, relationship() call, etc. # rewrite the node as: # <attr> : Mapped[<typ>] = # _sa_Mapped._empty_constructor(<original CallExpr from rvalue>) # the original right-hand side is maintained so it gets type checked # internally stmt.rvalue = expr_to_mapped_constructor(stmt.rvalue) if stmt.type is not None and python_type_for_type is not None: stmt.type = python_type_for_type def add_additional_orm_attributes( cls: ClassDef, api: SemanticAnalyzerPluginInterface, attributes: List[util.SQLAlchemyAttribute], ) -> None: """Apply __init__, __table__ and other attributes to the mapped class.""" info = util.info_for_cls(cls, api) if info is None: return is_base = util.get_is_base(info) if "__init__" not in info.names and not is_base: mapped_attr_names = {attr.name: attr.type for attr in attributes} for base in info.mro[1:-1]: if "sqlalchemy" not in info.metadata: continue base_cls_attributes = util.get_mapped_attributes(base, api) if base_cls_attributes is None: continue for attr in base_cls_attributes: mapped_attr_names.setdefault(attr.name, attr.type) arguments = [] for name, typ in mapped_attr_names.items(): if typ is None: typ = AnyType(TypeOfAny.special_form) arguments.append( Argument( variable=Var(name, typ), type_annotation=typ, initializer=TempNode(typ), kind=ARG_NAMED_OPT, ) ) add_method_to_class(api, cls, "__init__", arguments, NoneTyp()) if "__table__" not in info.names and util.get_has_table(info): _apply_placeholder_attr_to_class( api, cls, "sqlalchemy.sql.schema.Table", "__table__" ) if not is_base: _apply_placeholder_attr_to_class( api, cls, "sqlalchemy.orm.mapper.Mapper", "__mapper__" ) def _apply_placeholder_attr_to_class( api: SemanticAnalyzerPluginInterface, cls: ClassDef, qualified_name: str, attrname: str, ) -> None: sym = api.lookup_fully_qualified_or_none(qualified_name) if sym: assert isinstance(sym.node, TypeInfo) type_: ProperType = Instance(sym.node, []) else: type_ = AnyType(TypeOfAny.special_form) var = Var(attrname) var._fullname = cls.fullname + "." + attrname var.info = cls.info var.type = type_ cls.info.names[attrname] = SymbolTableNode(MDEF, var)