Source code for examples.nested_sets.nested_sets
"""Celko's "Nested Sets" Tree Structure.
http://www.intelligententerprise.com/001020/celko.jhtml
"""
from sqlalchemy import case
from sqlalchemy import Column
from sqlalchemy import create_engine
from sqlalchemy import event
from sqlalchemy import func
from sqlalchemy import Integer
from sqlalchemy import select
from sqlalchemy import String
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import aliased
from sqlalchemy.orm import Session
Base = declarative_base()
class Employee(Base):
__tablename__ = "personnel"
__mapper_args__ = {
"batch": False # allows extension to fire for each
# instance before going to the next.
}
parent = None
emp = Column(String, primary_key=True)
left = Column("lft", Integer, nullable=False)
right = Column("rgt", Integer, nullable=False)
def __repr__(self):
return "Employee(%s, %d, %d)" % (self.emp, self.left, self.right)
@event.listens_for(Employee, "before_insert")
def before_insert(mapper, connection, instance):
if not instance.parent:
instance.left = 1
instance.right = 2
else:
personnel = mapper.mapped_table
right_most_sibling = connection.scalar(
select(personnel.c.rgt).where(
personnel.c.emp == instance.parent.emp
)
)
connection.execute(
personnel.update(personnel.c.rgt >= right_most_sibling).values(
lft=case(
[
(
personnel.c.lft > right_most_sibling,
personnel.c.lft + 2,
)
],
else_=personnel.c.lft,
),
rgt=case(
[
(
personnel.c.rgt >= right_most_sibling,
personnel.c.rgt + 2,
)
],
else_=personnel.c.rgt,
),
)
)
instance.left = right_most_sibling
instance.right = right_most_sibling + 1
# before_update() would be needed to support moving of nodes
# after_delete() would be needed to support removal of nodes.
engine = create_engine("sqlite://", echo=True)
Base.metadata.create_all(engine)
session = Session(bind=engine)
albert = Employee(emp="Albert")
bert = Employee(emp="Bert")
chuck = Employee(emp="Chuck")
donna = Employee(emp="Donna")
eddie = Employee(emp="Eddie")
fred = Employee(emp="Fred")
bert.parent = albert
chuck.parent = albert
donna.parent = chuck
eddie.parent = chuck
fred.parent = chuck
# the order of "add" is important here. elements must be added in
# the order in which they should be INSERTed.
session.add_all([albert, bert, chuck, donna, eddie, fred])
session.commit()
print(session.query(Employee).all())
# 1. Find an employee and all their supervisors, no matter how deep the tree.
ealias = aliased(Employee)
print(
session.query(Employee)
.filter(ealias.left.between(Employee.left, Employee.right))
.filter(ealias.emp == "Eddie")
.all()
)
# 2. Find the employee and all their subordinates.
# (This query has a nice symmetry with the first query.)
print(
session.query(Employee)
.filter(Employee.left.between(ealias.left, ealias.right))
.filter(ealias.emp == "Chuck")
.all()
)
# 3. Find the level of each node, so you can print the tree
# as an indented listing.
for indentation, employee in (
session.query(func.count(Employee.emp).label("indentation") - 1, ealias)
.filter(ealias.left.between(Employee.left, Employee.right))
.group_by(ealias.emp)
.order_by(ealias.left)
):
print(" " * indentation + str(employee))
当前内容版权归 SQLAlchemy 或其关联方所有,如需对内容或内容相关联开源项目进行关注与资助,请访问 SQLAlchemy .