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names.py
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# ext/mypy/names.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 Dict from typing import List from typing import Optional from typing import Set from typing import Tuple from typing import Union from mypy.nodes import ARG_POS from mypy.nodes import CallExpr from mypy.nodes import ClassDef from mypy.nodes import Decorator from mypy.nodes import Expression from mypy.nodes import FuncDef from mypy.nodes import MemberExpr from mypy.nodes import NameExpr from mypy.nodes import OverloadedFuncDef from mypy.nodes import SymbolNode from mypy.nodes import TypeAlias from mypy.nodes import TypeInfo from mypy.plugin import SemanticAnalyzerPluginInterface from mypy.types import CallableType from mypy.types import get_proper_type from mypy.types import Instance from mypy.types import UnboundType from ... import util COLUMN: int = util.symbol("COLUMN") RELATIONSHIP: int = util.symbol("RELATIONSHIP") REGISTRY: int = util.symbol("REGISTRY") COLUMN_PROPERTY: int = util.symbol("COLUMN_PROPERTY") TYPEENGINE: int = util.symbol("TYPEENGNE") MAPPED: int = util.symbol("MAPPED") DECLARATIVE_BASE: int = util.symbol("DECLARATIVE_BASE") DECLARATIVE_META: int = util.symbol("DECLARATIVE_META") MAPPED_DECORATOR: int = util.symbol("MAPPED_DECORATOR") SYNONYM_PROPERTY: int = util.symbol("SYNONYM_PROPERTY") COMPOSITE_PROPERTY: int = util.symbol("COMPOSITE_PROPERTY") DECLARED_ATTR: int = util.symbol("DECLARED_ATTR") MAPPER_PROPERTY: int = util.symbol("MAPPER_PROPERTY") AS_DECLARATIVE: int = util.symbol("AS_DECLARATIVE") AS_DECLARATIVE_BASE: int = util.symbol("AS_DECLARATIVE_BASE") DECLARATIVE_MIXIN: int = util.symbol("DECLARATIVE_MIXIN") QUERY_EXPRESSION: int = util.symbol("QUERY_EXPRESSION") # names that must succeed with mypy.api.named_type NAMED_TYPE_BUILTINS_OBJECT = "builtins.object" NAMED_TYPE_BUILTINS_STR = "builtins.str" NAMED_TYPE_BUILTINS_LIST = "builtins.list" NAMED_TYPE_SQLA_MAPPED = "sqlalchemy.orm.base.Mapped" _RelFullNames = { "sqlalchemy.orm.relationships.Relationship", "sqlalchemy.orm.relationships.RelationshipProperty", "sqlalchemy.orm.relationships._RelationshipDeclared", "sqlalchemy.orm.Relationship", "sqlalchemy.orm.RelationshipProperty", } _lookup: Dict[str, Tuple[int, Set[str]]] = { "Column": ( COLUMN, { "sqlalchemy.sql.schema.Column", "sqlalchemy.sql.Column", }, ), "Relationship": (RELATIONSHIP, _RelFullNames), "RelationshipProperty": (RELATIONSHIP, _RelFullNames), "_RelationshipDeclared": (RELATIONSHIP, _RelFullNames), "registry": ( REGISTRY, { "sqlalchemy.orm.decl_api.registry", "sqlalchemy.orm.registry", }, ), "ColumnProperty": ( COLUMN_PROPERTY, { "sqlalchemy.orm.properties.MappedSQLExpression", "sqlalchemy.orm.MappedSQLExpression", "sqlalchemy.orm.properties.ColumnProperty", "sqlalchemy.orm.ColumnProperty", }, ), "MappedSQLExpression": ( COLUMN_PROPERTY, { "sqlalchemy.orm.properties.MappedSQLExpression", "sqlalchemy.orm.MappedSQLExpression", "sqlalchemy.orm.properties.ColumnProperty", "sqlalchemy.orm.ColumnProperty", }, ), "Synonym": ( SYNONYM_PROPERTY, { "sqlalchemy.orm.descriptor_props.Synonym", "sqlalchemy.orm.Synonym", "sqlalchemy.orm.descriptor_props.SynonymProperty", "sqlalchemy.orm.SynonymProperty", }, ), "SynonymProperty": ( SYNONYM_PROPERTY, { "sqlalchemy.orm.descriptor_props.Synonym", "sqlalchemy.orm.Synonym", "sqlalchemy.orm.descriptor_props.SynonymProperty", "sqlalchemy.orm.SynonymProperty", }, ), "Composite": ( COMPOSITE_PROPERTY, { "sqlalchemy.orm.descriptor_props.Composite", "sqlalchemy.orm.Composite", "sqlalchemy.orm.descriptor_props.CompositeProperty", "sqlalchemy.orm.CompositeProperty", }, ), "CompositeProperty": ( COMPOSITE_PROPERTY, { "sqlalchemy.orm.descriptor_props.Composite", "sqlalchemy.orm.Composite", "sqlalchemy.orm.descriptor_props.CompositeProperty", "sqlalchemy.orm.CompositeProperty", }, ), "MapperProperty": ( MAPPER_PROPERTY, { "sqlalchemy.orm.interfaces.MapperProperty", "sqlalchemy.orm.MapperProperty", }, ), "TypeEngine": (TYPEENGINE, {"sqlalchemy.sql.type_api.TypeEngine"}), "Mapped": (MAPPED, {NAMED_TYPE_SQLA_MAPPED}), "declarative_base": ( DECLARATIVE_BASE, { "sqlalchemy.ext.declarative.declarative_base", "sqlalchemy.orm.declarative_base", "sqlalchemy.orm.decl_api.declarative_base", }, ), "DeclarativeMeta": ( DECLARATIVE_META, { "sqlalchemy.ext.declarative.DeclarativeMeta", "sqlalchemy.orm.DeclarativeMeta", "sqlalchemy.orm.decl_api.DeclarativeMeta", }, ), "mapped": ( MAPPED_DECORATOR, { "sqlalchemy.orm.decl_api.registry.mapped", "sqlalchemy.orm.registry.mapped", }, ), "as_declarative": ( AS_DECLARATIVE, { "sqlalchemy.ext.declarative.as_declarative", "sqlalchemy.orm.decl_api.as_declarative", "sqlalchemy.orm.as_declarative", }, ), "as_declarative_base": ( AS_DECLARATIVE_BASE, { "sqlalchemy.orm.decl_api.registry.as_declarative_base", "sqlalchemy.orm.registry.as_declarative_base", }, ), "declared_attr": ( DECLARED_ATTR, { "sqlalchemy.orm.decl_api.declared_attr", "sqlalchemy.orm.declared_attr", }, ), "declarative_mixin": ( DECLARATIVE_MIXIN, { "sqlalchemy.orm.decl_api.declarative_mixin", "sqlalchemy.orm.declarative_mixin", }, ), "query_expression": ( QUERY_EXPRESSION, { "sqlalchemy.orm.query_expression", "sqlalchemy.orm._orm_constructors.query_expression", }, ), } def has_base_type_id(info: TypeInfo, type_id: int) -> bool: for mr in info.mro: check_type_id, fullnames = _lookup.get(mr.name, (None, None)) if check_type_id == type_id: break else: return False if fullnames is None: return False return mr.fullname in fullnames def mro_has_id(mro: List[TypeInfo], type_id: int) -> bool: for mr in mro: check_type_id, fullnames = _lookup.get(mr.name, (None, None)) if check_type_id == type_id: break else: return False if fullnames is None: return False return mr.fullname in fullnames def type_id_for_unbound_type( type_: UnboundType, cls: ClassDef, api: SemanticAnalyzerPluginInterface ) -> Optional[int]: sym = api.lookup_qualified(type_.name, type_) if sym is not None: if isinstance(sym.node, TypeAlias): target_type = get_proper_type(sym.node.target) if isinstance(target_type, Instance): return type_id_for_named_node(target_type.type) elif isinstance(sym.node, TypeInfo): return type_id_for_named_node(sym.node) return None def type_id_for_callee(callee: Expression) -> Optional[int]: if isinstance(callee, (MemberExpr, NameExpr)): if isinstance(callee.node, Decorator) and isinstance( callee.node.func, FuncDef ): if callee.node.func.type and isinstance( callee.node.func.type, CallableType ): ret_type = get_proper_type(callee.node.func.type.ret_type) if isinstance(ret_type, Instance): return type_id_for_fullname(ret_type.type.fullname) return None elif isinstance(callee.node, OverloadedFuncDef): if ( callee.node.impl and callee.node.impl.type and isinstance(callee.node.impl.type, CallableType) ): ret_type = get_proper_type(callee.node.impl.type.ret_type) if isinstance(ret_type, Instance): return type_id_for_fullname(ret_type.type.fullname) return None elif isinstance(callee.node, FuncDef): if callee.node.type and isinstance(callee.node.type, CallableType): ret_type = get_proper_type(callee.node.type.ret_type) if isinstance(ret_type, Instance): return type_id_for_fullname(ret_type.type.fullname) return None elif isinstance(callee.node, TypeAlias): target_type = get_proper_type(callee.node.target) if isinstance(target_type, Instance): return type_id_for_fullname(target_type.type.fullname) elif isinstance(callee.node, TypeInfo): return type_id_for_named_node(callee) return None def type_id_for_named_node( node: Union[NameExpr, MemberExpr, SymbolNode] ) -> Optional[int]: type_id, fullnames = _lookup.get(node.name, (None, None)) if type_id is None or fullnames is None: return None elif node.fullname in fullnames: return type_id else: return None def type_id_for_fullname(fullname: str) -> Optional[int]: tokens = fullname.split(".") immediate = tokens[-1] type_id, fullnames = _lookup.get(immediate, (None, None)) if type_id is None or fullnames is None: return None elif fullname in fullnames: return type_id else: return None def expr_to_mapped_constructor(expr: Expression) -> CallExpr: column_descriptor = NameExpr("__sa_Mapped") column_descriptor.fullname = NAMED_TYPE_SQLA_MAPPED member_expr = MemberExpr(column_descriptor, "_empty_constructor") return CallExpr( member_expr, [expr], [ARG_POS], ["arg1"], )