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557 lines
18 KiB
Python
557 lines
18 KiB
Python
3 months ago
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# ext/mypy/infer.py
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# Copyright (C) 2021 the SQLAlchemy authors and contributors
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# <see AUTHORS file>
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#
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# This module is part of SQLAlchemy and is released under
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# the MIT License: https://www.opensource.org/licenses/mit-license.php
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from typing import Optional
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from typing import Sequence
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from mypy.maptype import map_instance_to_supertype
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from mypy.messages import format_type
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from mypy.nodes import AssignmentStmt
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from mypy.nodes import CallExpr
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from mypy.nodes import Expression
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from mypy.nodes import FuncDef
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from mypy.nodes import LambdaExpr
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from mypy.nodes import MemberExpr
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from mypy.nodes import NameExpr
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from mypy.nodes import RefExpr
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from mypy.nodes import StrExpr
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from mypy.nodes import TypeInfo
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from mypy.nodes import Var
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from mypy.plugin import SemanticAnalyzerPluginInterface
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from mypy.subtypes import is_subtype
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from mypy.types import AnyType
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from mypy.types import CallableType
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from mypy.types import get_proper_type
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from mypy.types import Instance
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from mypy.types import NoneType
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from mypy.types import ProperType
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from mypy.types import TypeOfAny
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from mypy.types import UnionType
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from . import names
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from . import util
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def infer_type_from_right_hand_nameexpr(
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api: SemanticAnalyzerPluginInterface,
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stmt: AssignmentStmt,
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node: Var,
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left_hand_explicit_type: Optional[ProperType],
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infer_from_right_side: RefExpr,
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) -> Optional[ProperType]:
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type_id = names.type_id_for_callee(infer_from_right_side)
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if type_id is None:
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return None
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elif type_id is names.COLUMN:
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python_type_for_type = _infer_type_from_decl_column(
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api, stmt, node, left_hand_explicit_type
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)
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elif type_id is names.RELATIONSHIP:
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python_type_for_type = _infer_type_from_relationship(
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api, stmt, node, left_hand_explicit_type
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)
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elif type_id is names.COLUMN_PROPERTY:
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python_type_for_type = _infer_type_from_decl_column_property(
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api, stmt, node, left_hand_explicit_type
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)
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elif type_id is names.SYNONYM_PROPERTY:
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python_type_for_type = infer_type_from_left_hand_type_only(
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api, node, left_hand_explicit_type
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)
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elif type_id is names.COMPOSITE_PROPERTY:
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python_type_for_type = _infer_type_from_decl_composite_property(
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api, stmt, node, left_hand_explicit_type
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)
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else:
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return None
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return python_type_for_type
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def _infer_type_from_relationship(
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api: SemanticAnalyzerPluginInterface,
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stmt: AssignmentStmt,
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node: Var,
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left_hand_explicit_type: Optional[ProperType],
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) -> Optional[ProperType]:
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"""Infer the type of mapping from a relationship.
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E.g.::
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@reg.mapped
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class MyClass:
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# ...
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addresses = relationship(Address, uselist=True)
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order: Mapped["Order"] = relationship("Order")
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Will resolve in mypy as::
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@reg.mapped
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class MyClass:
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# ...
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addresses: Mapped[List[Address]]
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order: Mapped["Order"]
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"""
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assert isinstance(stmt.rvalue, CallExpr)
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target_cls_arg = stmt.rvalue.args[0]
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python_type_for_type: Optional[ProperType] = None
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if isinstance(target_cls_arg, NameExpr) and isinstance(
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target_cls_arg.node, TypeInfo
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):
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# type
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related_object_type = target_cls_arg.node
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python_type_for_type = Instance(related_object_type, [])
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# other cases not covered - an error message directs the user
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# to set an explicit type annotation
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#
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# node.type == str, it's a string
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# if isinstance(target_cls_arg, NameExpr) and isinstance(
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# target_cls_arg.node, Var
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# )
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# points to a type
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# isinstance(target_cls_arg, NameExpr) and isinstance(
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# target_cls_arg.node, TypeAlias
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# )
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# string expression
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# isinstance(target_cls_arg, StrExpr)
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uselist_arg = util.get_callexpr_kwarg(stmt.rvalue, "uselist")
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collection_cls_arg: Optional[Expression] = util.get_callexpr_kwarg(
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stmt.rvalue, "collection_class"
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)
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type_is_a_collection = False
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# this can be used to determine Optional for a many-to-one
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# in the same way nullable=False could be used, if we start supporting
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# that.
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# innerjoin_arg = util.get_callexpr_kwarg(stmt.rvalue, "innerjoin")
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if (
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uselist_arg is not None
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and api.parse_bool(uselist_arg) is True
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and collection_cls_arg is None
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):
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type_is_a_collection = True
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if python_type_for_type is not None:
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python_type_for_type = api.named_type(
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names.NAMED_TYPE_BUILTINS_LIST, [python_type_for_type]
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)
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elif (
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uselist_arg is None or api.parse_bool(uselist_arg) is True
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) and collection_cls_arg is not None:
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type_is_a_collection = True
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if isinstance(collection_cls_arg, CallExpr):
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collection_cls_arg = collection_cls_arg.callee
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if isinstance(collection_cls_arg, NameExpr) and isinstance(
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collection_cls_arg.node, TypeInfo
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):
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if python_type_for_type is not None:
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# this can still be overridden by the left hand side
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# within _infer_Type_from_left_and_inferred_right
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python_type_for_type = Instance(
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collection_cls_arg.node, [python_type_for_type]
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)
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elif (
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isinstance(collection_cls_arg, NameExpr)
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and isinstance(collection_cls_arg.node, FuncDef)
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and collection_cls_arg.node.type is not None
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):
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if python_type_for_type is not None:
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# this can still be overridden by the left hand side
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# within _infer_Type_from_left_and_inferred_right
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# TODO: handle mypy.types.Overloaded
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if isinstance(collection_cls_arg.node.type, CallableType):
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rt = get_proper_type(collection_cls_arg.node.type.ret_type)
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if isinstance(rt, CallableType):
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callable_ret_type = get_proper_type(rt.ret_type)
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if isinstance(callable_ret_type, Instance):
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python_type_for_type = Instance(
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callable_ret_type.type,
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[python_type_for_type],
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)
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else:
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util.fail(
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api,
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"Expected Python collection type for "
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"collection_class parameter",
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stmt.rvalue,
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)
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python_type_for_type = None
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elif uselist_arg is not None and api.parse_bool(uselist_arg) is False:
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if collection_cls_arg is not None:
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util.fail(
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api,
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"Sending uselist=False and collection_class at the same time "
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"does not make sense",
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stmt.rvalue,
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)
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if python_type_for_type is not None:
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python_type_for_type = UnionType(
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[python_type_for_type, NoneType()]
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)
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else:
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if left_hand_explicit_type is None:
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msg = (
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"Can't infer scalar or collection for ORM mapped expression "
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"assigned to attribute '{}' if both 'uselist' and "
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"'collection_class' arguments are absent from the "
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"relationship(); please specify a "
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"type annotation on the left hand side."
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)
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util.fail(api, msg.format(node.name), node)
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if python_type_for_type is None:
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return infer_type_from_left_hand_type_only(
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api, node, left_hand_explicit_type
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)
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elif left_hand_explicit_type is not None:
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if type_is_a_collection:
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assert isinstance(left_hand_explicit_type, Instance)
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assert isinstance(python_type_for_type, Instance)
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return _infer_collection_type_from_left_and_inferred_right(
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api, node, left_hand_explicit_type, python_type_for_type
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)
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else:
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return _infer_type_from_left_and_inferred_right(
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api,
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node,
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left_hand_explicit_type,
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python_type_for_type,
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)
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else:
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return python_type_for_type
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def _infer_type_from_decl_composite_property(
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api: SemanticAnalyzerPluginInterface,
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stmt: AssignmentStmt,
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node: Var,
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left_hand_explicit_type: Optional[ProperType],
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) -> Optional[ProperType]:
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"""Infer the type of mapping from a CompositeProperty."""
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assert isinstance(stmt.rvalue, CallExpr)
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target_cls_arg = stmt.rvalue.args[0]
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python_type_for_type = None
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if isinstance(target_cls_arg, NameExpr) and isinstance(
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target_cls_arg.node, TypeInfo
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):
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related_object_type = target_cls_arg.node
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python_type_for_type = Instance(related_object_type, [])
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else:
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python_type_for_type = None
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if python_type_for_type is None:
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return infer_type_from_left_hand_type_only(
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api, node, left_hand_explicit_type
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)
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elif left_hand_explicit_type is not None:
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return _infer_type_from_left_and_inferred_right(
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api, node, left_hand_explicit_type, python_type_for_type
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)
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else:
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return python_type_for_type
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def _infer_type_from_decl_column_property(
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api: SemanticAnalyzerPluginInterface,
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stmt: AssignmentStmt,
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node: Var,
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left_hand_explicit_type: Optional[ProperType],
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) -> Optional[ProperType]:
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"""Infer the type of mapping from a ColumnProperty.
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This includes mappings against ``column_property()`` as well as the
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``deferred()`` function.
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"""
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assert isinstance(stmt.rvalue, CallExpr)
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if stmt.rvalue.args:
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first_prop_arg = stmt.rvalue.args[0]
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if isinstance(first_prop_arg, CallExpr):
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type_id = names.type_id_for_callee(first_prop_arg.callee)
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# look for column_property() / deferred() etc with Column as first
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# argument
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if type_id is names.COLUMN:
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return _infer_type_from_decl_column(
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api,
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stmt,
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node,
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left_hand_explicit_type,
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right_hand_expression=first_prop_arg,
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)
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if isinstance(stmt.rvalue, CallExpr):
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type_id = names.type_id_for_callee(stmt.rvalue.callee)
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# this is probably not strictly necessary as we have to use the left
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# hand type for query expression in any case. any other no-arg
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# column prop objects would go here also
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if type_id is names.QUERY_EXPRESSION:
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return _infer_type_from_decl_column(
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api,
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stmt,
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node,
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left_hand_explicit_type,
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)
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return infer_type_from_left_hand_type_only(
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api, node, left_hand_explicit_type
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)
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def _infer_type_from_decl_column(
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api: SemanticAnalyzerPluginInterface,
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stmt: AssignmentStmt,
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node: Var,
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left_hand_explicit_type: Optional[ProperType],
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right_hand_expression: Optional[CallExpr] = None,
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) -> Optional[ProperType]:
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"""Infer the type of mapping from a Column.
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E.g.::
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@reg.mapped
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class MyClass:
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# ...
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a = Column(Integer)
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b = Column("b", String)
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c: Mapped[int] = Column(Integer)
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d: bool = Column(Boolean)
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Will resolve in MyPy as::
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@reg.mapped
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class MyClass:
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# ...
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a : Mapped[int]
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b : Mapped[str]
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c: Mapped[int]
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d: Mapped[bool]
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"""
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assert isinstance(node, Var)
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callee = None
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if right_hand_expression is None:
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if not isinstance(stmt.rvalue, CallExpr):
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return None
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right_hand_expression = stmt.rvalue
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for column_arg in right_hand_expression.args[0:2]:
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if isinstance(column_arg, CallExpr):
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if isinstance(column_arg.callee, RefExpr):
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# x = Column(String(50))
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callee = column_arg.callee
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type_args: Sequence[Expression] = column_arg.args
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break
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elif isinstance(column_arg, (NameExpr, MemberExpr)):
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if isinstance(column_arg.node, TypeInfo):
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# x = Column(String)
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callee = column_arg
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type_args = ()
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break
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else:
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# x = Column(some_name, String), go to next argument
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continue
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elif isinstance(column_arg, (StrExpr,)):
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# x = Column("name", String), go to next argument
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continue
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elif isinstance(column_arg, (LambdaExpr,)):
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# x = Column("name", String, default=lambda: uuid.uuid4())
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# go to next argument
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continue
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else:
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assert False
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if callee is None:
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return None
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if isinstance(callee.node, TypeInfo) and names.mro_has_id(
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callee.node.mro, names.TYPEENGINE
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):
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python_type_for_type = extract_python_type_from_typeengine(
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api, callee.node, type_args
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)
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if left_hand_explicit_type is not None:
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return _infer_type_from_left_and_inferred_right(
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api, node, left_hand_explicit_type, python_type_for_type
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)
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else:
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return UnionType([python_type_for_type, NoneType()])
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else:
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# it's not TypeEngine, it's typically implicitly typed
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# like ForeignKey. we can't infer from the right side.
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return infer_type_from_left_hand_type_only(
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api, node, left_hand_explicit_type
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)
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def _infer_type_from_left_and_inferred_right(
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api: SemanticAnalyzerPluginInterface,
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node: Var,
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left_hand_explicit_type: ProperType,
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python_type_for_type: ProperType,
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orig_left_hand_type: Optional[ProperType] = None,
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orig_python_type_for_type: Optional[ProperType] = None,
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) -> Optional[ProperType]:
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"""Validate type when a left hand annotation is present and we also
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could infer the right hand side::
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attrname: SomeType = Column(SomeDBType)
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"""
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if orig_left_hand_type is None:
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orig_left_hand_type = left_hand_explicit_type
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|
if orig_python_type_for_type is None:
|
||
|
orig_python_type_for_type = python_type_for_type
|
||
|
|
||
|
if not is_subtype(left_hand_explicit_type, python_type_for_type):
|
||
|
effective_type = api.named_type(
|
||
|
names.NAMED_TYPE_SQLA_MAPPED, [orig_python_type_for_type]
|
||
|
)
|
||
|
|
||
|
msg = (
|
||
|
"Left hand assignment '{}: {}' not compatible "
|
||
|
"with ORM mapped expression of type {}"
|
||
|
)
|
||
|
util.fail(
|
||
|
api,
|
||
|
msg.format(
|
||
|
node.name,
|
||
|
format_type(orig_left_hand_type),
|
||
|
format_type(effective_type),
|
||
|
),
|
||
|
node,
|
||
|
)
|
||
|
|
||
|
return orig_left_hand_type
|
||
|
|
||
|
|
||
|
def _infer_collection_type_from_left_and_inferred_right(
|
||
|
api: SemanticAnalyzerPluginInterface,
|
||
|
node: Var,
|
||
|
left_hand_explicit_type: Instance,
|
||
|
python_type_for_type: Instance,
|
||
|
) -> Optional[ProperType]:
|
||
|
orig_left_hand_type = left_hand_explicit_type
|
||
|
orig_python_type_for_type = python_type_for_type
|
||
|
|
||
|
if left_hand_explicit_type.args:
|
||
|
left_hand_arg = get_proper_type(left_hand_explicit_type.args[0])
|
||
|
python_type_arg = get_proper_type(python_type_for_type.args[0])
|
||
|
else:
|
||
|
left_hand_arg = left_hand_explicit_type
|
||
|
python_type_arg = python_type_for_type
|
||
|
|
||
|
assert isinstance(left_hand_arg, (Instance, UnionType))
|
||
|
assert isinstance(python_type_arg, (Instance, UnionType))
|
||
|
|
||
|
return _infer_type_from_left_and_inferred_right(
|
||
|
api,
|
||
|
node,
|
||
|
left_hand_arg,
|
||
|
python_type_arg,
|
||
|
orig_left_hand_type=orig_left_hand_type,
|
||
|
orig_python_type_for_type=orig_python_type_for_type,
|
||
|
)
|
||
|
|
||
|
|
||
|
def infer_type_from_left_hand_type_only(
|
||
|
api: SemanticAnalyzerPluginInterface,
|
||
|
node: Var,
|
||
|
left_hand_explicit_type: Optional[ProperType],
|
||
|
) -> Optional[ProperType]:
|
||
|
"""Determine the type based on explicit annotation only.
|
||
|
|
||
|
if no annotation were present, note that we need one there to know
|
||
|
the type.
|
||
|
|
||
|
"""
|
||
|
if left_hand_explicit_type is None:
|
||
|
msg = (
|
||
|
"Can't infer type from ORM mapped expression "
|
||
|
"assigned to attribute '{}'; please specify a "
|
||
|
"Python type or "
|
||
|
"Mapped[<python type>] on the left hand side."
|
||
|
)
|
||
|
util.fail(api, msg.format(node.name), node)
|
||
|
|
||
|
return api.named_type(
|
||
|
names.NAMED_TYPE_SQLA_MAPPED, [AnyType(TypeOfAny.special_form)]
|
||
|
)
|
||
|
|
||
|
else:
|
||
|
# use type from the left hand side
|
||
|
return left_hand_explicit_type
|
||
|
|
||
|
|
||
|
def extract_python_type_from_typeengine(
|
||
|
api: SemanticAnalyzerPluginInterface,
|
||
|
node: TypeInfo,
|
||
|
type_args: Sequence[Expression],
|
||
|
) -> ProperType:
|
||
|
if node.fullname == "sqlalchemy.sql.sqltypes.Enum" and type_args:
|
||
|
first_arg = type_args[0]
|
||
|
if isinstance(first_arg, RefExpr) and isinstance(
|
||
|
first_arg.node, TypeInfo
|
||
|
):
|
||
|
for base_ in first_arg.node.mro:
|
||
|
if base_.fullname == "enum.Enum":
|
||
|
return Instance(first_arg.node, [])
|
||
|
# TODO: support other pep-435 types here
|
||
|
else:
|
||
|
return api.named_type(names.NAMED_TYPE_BUILTINS_STR, [])
|
||
|
|
||
|
assert node.has_base("sqlalchemy.sql.type_api.TypeEngine"), (
|
||
|
"could not extract Python type from node: %s" % node
|
||
|
)
|
||
|
|
||
|
type_engine_sym = api.lookup_fully_qualified_or_none(
|
||
|
"sqlalchemy.sql.type_api.TypeEngine"
|
||
|
)
|
||
|
|
||
|
assert type_engine_sym is not None and isinstance(
|
||
|
type_engine_sym.node, TypeInfo
|
||
|
)
|
||
|
type_engine = map_instance_to_supertype(
|
||
|
Instance(node, []),
|
||
|
type_engine_sym.node,
|
||
|
)
|
||
|
return get_proper_type(type_engine.args[-1])
|