Files
proc-rota/test/test_limit_constraints.py
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2025-12-09 14:29:54 +00:00

316 lines
12 KiB
Python

import pytest
import datetime
from rota_generator.shifts import MinimumGradeNumberConstraint, RequireRemoteSitePresenceConstraint, RotaBuilder, SingleShift, days, LimitGradeNumberConstraint
from rota_generator.workers import Worker
@pytest.fixture
def limit_constraint_rota():
weeks_to_rota = 8
start_date = datetime.date(2022, 3, 7)
Rota = RotaBuilder(
start_date,
weeks_to_rota=weeks_to_rota,
)
worker1 = Worker(name="worker1", site="group1", grade=2, remote_site="group1")
worker2 = Worker(name="worker2", site="group1", grade=2, remote_site="group1")
worker3 = Worker(name="worker3", site="group1", grade=2, remote_site="group1")
worker4 = Worker(name="worker4", site="group3", grade=3, remote_site="group2")
worker5 = Worker(name="worker5", site="group3", grade=3, remote_site="group2")
worker6 = Worker(name="worker6", site="group3", grade=3, remote_site="group2")
Rota.add_workers((worker1, worker2, worker3, worker4, worker5, worker6))
Rota.shifts = []
return Rota
def test_constraint_limit_grades(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=60,
workers_required=4,
force_as_block=True,
constraints=[LimitGradeNumberConstraint(grade=2, max_number=1)]
),
)
Rota.build_and_solve(options={"ratio": 0.01})
Rota.export_rota_to_html("constraint_limit_grades", folder="tests")
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
grade_workers = Rota.get_workers_by_grade()
for grade in grade_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in grade_workers[grade]]
zipped_lists = list(zip(*shift_patterns))
limit = 1 if grade == 2 else 3
for day_shifts in zipped_lists:
assert day_shifts.count("weekday_night") == limit
def test_constraint_limit_grades2(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=4,
force_as_block=True,
constraints=[LimitGradeNumberConstraint(grade=3, max_number=1)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.1})
Rota.export_rota_to_html("test9", folder="tests")
grade_workers = Rota.get_workers_by_grade()
for grade in grade_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in grade_workers[grade]]
zipped_lists = list(zip(*shift_patterns))
limit = 1 if grade == 3 else 3
for day_shifts in zipped_lists:
assert day_shifts.count("weekday_night") == limit
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
def test_constraint_limit_grades3(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.workers = []
worker1 = Worker(name="worker1", site="group1", grade=2, remote_site="group1")
worker2 = Worker(name="worker2", site="group1", grade=2, remote_site="group1")
worker3 = Worker(name="worker3", site="group1", grade=2, remote_site="group1")
worker4 = Worker(name="worker4", site="group3", grade=3, remote_site="group2")
worker5 = Worker(name="worker5", site="group3", grade=3, remote_site="group2")
worker6 = Worker(name="worker6", site="group3", grade=3, remote_site="group2")
worker7 = Worker(name="worker7", site="group3", grade=2, remote_site="group2")
Rota.add_workers((worker1, worker2, worker3, worker4, worker5, worker6, worker7))
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=60,
workers_required=4,
force_as_block=True,
constraints=[LimitGradeNumberConstraint(grade=2, max_number=3), LimitGradeNumberConstraint(grade=3, max_number=1)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.01})
Rota.export_rota_to_html("test9")
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
grade_workers = Rota.get_workers_by_grade()
for grade in grade_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in grade_workers[grade]]
zipped_lists = list(zip(*shift_patterns))
limit = 3 if grade == 2 else 1
for day_shifts in zipped_lists:
assert day_shifts.count("weekday_night") == limit
def test_constraint_limit_grades4(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=4,
force_as_block=True,
constraints=[LimitGradeNumberConstraint(grade=2, max_number=4), LimitGradeNumberConstraint(grade=3, max_number=0)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.1})
assert Rota.results.solver.termination_condition == "infeasible"
def test_constraint_minimum_grades(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=1,
force_as_block=True,
constraints=[MinimumGradeNumberConstraint(grade=3, min_number=1)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.1})
Rota.export_rota_to_html("test9")
assert Rota.results.solver.status == "ok"
grade_workers = Rota.get_workers_by_grade()
for grade in grade_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in grade_workers[grade]]
zipped_lists = list(zip(*shift_patterns))
limit = 1 if grade > 2 else 0
for day_shifts in zipped_lists:
assert day_shifts.count("weekday_night") == limit
def test_constraint_minimum_grades2(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=4,
force_as_block=True,
constraints=[MinimumGradeNumberConstraint(grade=3, min_number=3)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.1})
Rota.export_rota_to_html("test9")
grade_workers = Rota.get_workers_by_grade()
for grade in grade_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in grade_workers[grade]]
zipped_lists = list(zip(*shift_patterns))
limit = 3 if grade > 2 else 1
for day_shifts in zipped_lists:
assert day_shifts.count("weekday_night") == limit
assert Rota.results.solver.status == "ok"
def test_constraint_minimum_grades3(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=4,
force_as_block=True,
constraints=[MinimumGradeNumberConstraint(grade=3, min_number=0)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
Rota.build_and_solve(options={"ratio": 0.1})
Rota.export_rota_to_html("test9")
assert Rota.results.solver.status == "ok"
def test_constraint_minimum_grades_no_valid_worker(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="weekday_night",
length=12.5,
days=days,
balance_offset=40,
workers_required=4,
force_as_block=True,
constraints=[MinimumGradeNumberConstraint(grade=4, min_number=1)],
),
)
Rota.constraint_options["balance_shifts_quadratic"] = True
with pytest.raises(ValueError):
Rota.build_and_solve(options={"ratio": 0.1})
def test_constraint_require_remote_site_presence_week(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="night",
length=12.5,
days=days,
balance_offset=40,
workers_required=2,
force_as_block=True,
constraints=[
RequireRemoteSitePresenceConstraint(site="group1", required_number=2)
],
),
)
Rota.build_and_solve(options={"ratio": 0.00})
Rota.export_rota_to_html("remote1")
group_workers = Rota.get_workers_by_group()
for group in group_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in group_workers[group]]
zipped_lists = list(zip(*shift_patterns))
limit = 2 if group == "group1" else 0
for day_shifts in zipped_lists:
assert day_shifts.count("night") == limit
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
def test_constraint_require_remote_site_presence_week2(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.constraint_options["minimise_shift_diffs"] = False
Rota.constraint_options["balance_shifts_quadratic"] = False
Rota.constraint_options["balance_shifts"] = False
Rota.constraint_options["balance_nights_across_sites"] = True
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="night",
length=12.5,
days=days,
balance_offset=20,
workers_required=3,
force_as_block=True,
constraints=[
RequireRemoteSitePresenceConstraint(site="group1", required_number=2)
],
),
)
Rota.build_and_solve(options={"ratio": 0.00})
Rota.export_rota_to_html("remote2")
group_workers = Rota.get_workers_by_remote_group()
for group in group_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in group_workers[group]]
zipped_lists = list(zip(*shift_patterns))
if group == "group1":
for day_shifts in zipped_lists:
assert day_shifts.count("night") >= 2
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
def test_constraint_require_remote_site_presence_week3(limit_constraint_rota):
Rota = limit_constraint_rota
Rota.shifts = []
Rota.add_shifts(
SingleShift(
sites=("group1", "group2", "group3"),
name="night",
length=12.5,
days=days,
balance_offset=20,
workers_required=3,
force_as_block=True,
constraints=[
RequireRemoteSitePresenceConstraint(site="group2", required_number=1)
],
),
)
Rota.build_and_solve(options={"ratio": 0.00})
Rota.export_rota_to_html("remote3")
group_workers = Rota.get_workers_by_remote_group()
for group in group_workers:
shift_patterns = [Rota.get_worker_shift_list(w) for w in group_workers[group]]
zipped_lists = list(zip(*shift_patterns))
if group == "group2":
for day_shifts in zipped_lists:
assert day_shifts.count("night") >= 1
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"