"""Concrete-table (table-per-class) inheritance example.""" from __future__ import annotations from typing import Annotated from sqlalchemy import create_engine from sqlalchemy import ForeignKey from sqlalchemy import or_ from sqlalchemy import select from sqlalchemy import String from sqlalchemy.ext.declarative import ConcreteBase from sqlalchemy.orm import DeclarativeBase from sqlalchemy.orm import Mapped from sqlalchemy.orm import mapped_column from sqlalchemy.orm import relationship from sqlalchemy.orm import Session from sqlalchemy.orm import with_polymorphic intpk = Annotated[int, mapped_column(primary_key=True)] str50 = Annotated[str, mapped_column(String(50))] class Base(DeclarativeBase): pass class Company(Base): __tablename__ = "company" id: Mapped[intpk] name: Mapped[str50] employees: Mapped[list[Person]] = relationship( back_populates="company", cascade="all, delete-orphan" ) def __repr__(self): return f"Company {self.name}" class Person(ConcreteBase, Base): __tablename__ = "person" id: Mapped[intpk] company_id: Mapped[int] = mapped_column(ForeignKey("company.id")) name: Mapped[str50] company: Mapped[Company] = relationship(back_populates="employees") __mapper_args__ = { "polymorphic_identity": "person", } def __repr__(self): return f"Ordinary person {self.name}" class Engineer(Person): __tablename__ = "engineer" id: Mapped[int] = mapped_column(primary_key=True) company_id: Mapped[int] = mapped_column(ForeignKey("company.id")) name: Mapped[str50] status: Mapped[str50] engineer_name: Mapped[str50] primary_language: Mapped[str50] company: Mapped[Company] = relationship(back_populates="employees") __mapper_args__ = {"polymorphic_identity": "engineer", "concrete": True} class Manager(Person): __tablename__ = "manager" id: Mapped[int] = mapped_column(primary_key=True) company_id: Mapped[int] = mapped_column(ForeignKey("company.id")) name: Mapped[str50] status: Mapped[str50] manager_name: Mapped[str50] company: Mapped[Company] = relationship(back_populates="employees") __mapper_args__ = {"polymorphic_identity": "manager", "concrete": True} def __repr__(self): return ( f"Manager {self.name}, status {self.status}, " f"manager_name {self.manager_name}" ) engine = create_engine("sqlite://", echo=True) Base.metadata.create_all(engine) with Session(engine) as session: c = Company( name="company1", employees=[ Manager( name="mr krabs", status="AAB", manager_name="manager1", ), Engineer( name="spongebob", status="BBA", engineer_name="engineer1", primary_language="java", ), Person(name="joesmith"), Engineer( name="patrick", status="CGG", engineer_name="engineer2", primary_language="python", ), Manager(name="jsmith", status="ABA", manager_name="manager2"), ], ) session.add(c) session.commit() for e in c.employees: print(e) spongebob = session.scalars( select(Person).filter_by(name="spongebob") ).one() spongebob2 = session.scalars( select(Engineer).filter_by(name="spongebob") ).one() assert spongebob is spongebob2 spongebob2.engineer_name = "hes spongebob!" session.commit() # query using with_polymorphic. # when using ConcreteBase, use "*" to use the default selectable # setting specific entities won't work right now. eng_manager = with_polymorphic(Person, "*") print( session.scalars( select(eng_manager).filter( or_( eng_manager.Engineer.engineer_name == "engineer1", eng_manager.Manager.manager_name == "manager2", ) ) ).all() ) # illustrate join from Company. print( session.scalars( select(Company) .join(Company.employees.of_type(eng_manager)) .filter( or_( eng_manager.Engineer.engineer_name == "engineer1", eng_manager.Manager.manager_name == "manager2", ) ) ).all() ) session.commit()