Files
proc-rota/test/test_workers.py
T
2022-07-11 19:46:40 +01:00

321 lines
9.7 KiB
Python

import pytest
from rota.shifts import NoWorkers, RotaBuilder, SingleShift, days
import datetime
from rota.workers import Worker
def setup_basic_rota():
weeks_to_rota = 10
start_date = datetime.date(2022, 3, 7)
return RotaBuilder(
start_date,
weeks_to_rota=weeks_to_rota,
)
class TestWorkers:
def test_no_workers(self):
"""Check error raised if attempt to solve with no workers"""
Rota = setup_basic_rota()
Rota.add_shifts(
SingleShift(
sites=("group1",),
name="d",
length=12.5,
days=days[:5],
balance_offset=10,
workers_required=1,
),
SingleShift(
sites=("group1",),
name="w",
length=12.5,
days=days[5:],
workers_required=1,
),
)
with pytest.raises(NoWorkers):
Rota.build_and_solve(solve=False)
def test_workers_duplicate_name(self):
Rota = setup_basic_rota()
workers = []
workers.append(Worker(name="worker1", site="group1", grade=1, fte=100))
workers.append(Worker(name="worker1", site="group1", grade=1, fte=100))
workers.append(Worker(name="worker3", site="group2", grade=1, fte=50))
workers.append(Worker(name="worker4", site="group2", grade=1, fte=50))
Rota.add_workers(workers)
Rota.add_shifts(
SingleShift(
sites=("group1",),
name="d",
length=12.5,
days=days[:5],
balance_offset=10,
workers_required=1,
),
)
with pytest.raises(ValueError):
Rota.build_and_solve(solve=False)
def test_worker_ftes(self):
weeks_to_rota = 10
start_date = datetime.date(2022, 3, 7)
Rota = RotaBuilder(
start_date,
weeks_to_rota=weeks_to_rota,
)
worker1_end_date = start_date + datetime.timedelta(weeks=weeks_to_rota / 2)
worker2_start_date = start_date + datetime.timedelta(weeks=weeks_to_rota / 2)
worker3_start_date = start_date + datetime.timedelta(weeks=weeks_to_rota / 4)
worker3_end_date = start_date + datetime.timedelta(weeks=3 * weeks_to_rota / 4)
workers = []
workers.append(
Worker(
name="worker1",
site="group1",
grade=1,
fte=100,
end_date=worker1_end_date,
)
)
workers.append(
Worker(
name="worker2",
site="group1",
grade=1,
fte=100,
start_date=worker2_start_date,
)
)
workers.append(
Worker(
name="worker3",
site="group2",
grade=1,
fte=100,
start_date=worker3_start_date,
end_date=worker3_end_date,
)
)
workers.append(Worker(name="worker4", site="group2", grade=1, fte=50))
workers.append(
Worker(name="worker5", site="group2", grade=1, fte=50, nwd=["Mon", "Tue"])
)
workers.append(
Worker(
name="worker6",
site="group3",
grade=1,
fte=100,
start_date=start_date + datetime.timedelta(weeks=weeks_to_rota),
)
)
workers.append(
Worker(name="worker7", site="group3", grade=1, fte=50, end_date=start_date)
)
Rota.add_workers(workers)
Rota.add_shifts(
SingleShift(
sites=("group1", "group2"),
name="d",
length=12.5,
days=days[:5],
balance_offset=10,
workers_required=1,
),
)
Rota.build_and_solve()
# All workers should have an adjusted fte of 50 %
for worker in Rota.get_workers():
# Except those in group3
if worker.site == "group3":
assert worker.fte_adj == 0
assert Rota.get_worker_shift_list(worker).count("d") == 0
continue
assert worker.fte_adj == 50
if worker.fte == 100:
assert worker.proportion_rota_to_work == 0.5
assert worker.days_to_work == 35
assert Rota.get_worker_shift_list(worker).count("d") == 10
if worker.name == "worker1":
assert Rota.get_worker_shift_list_string(worker).endswith(
"-" * (Rota.rota_days_length // 2)
)
if worker.name == "worker2":
assert Rota.get_worker_shift_list_string(worker).startswith(
"-" * (Rota.rota_days_length // 2)
)
if worker.name == "worker3":
assert Rota.get_worker_shift_list_string(worker).startswith(
"-" * (Rota.rota_days_length // 4)
)
assert Rota.get_worker_shift_list_string(worker).endswith(
"-" * (Rota.rota_days_length // 4)
)
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
Rota.export_rota_to_html("worker_ftes")
def test_worker_oops(self):
weeks_to_rota = 10
start_date = datetime.date(2022, 3, 7)
Rota = RotaBuilder(
start_date,
weeks_to_rota=weeks_to_rota,
)
worker1_oop = [
{
"start_date": start_date,
"end_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 2),
"reason": "First half OOP",
}
]
worker2_oop = [
{
"start_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 2),
"end_date": Rota.rota_end_date,
"reason": "First half OOP",
}
]
worker3_start_date = start_date + datetime.timedelta(weeks=weeks_to_rota / 4)
worker3_oop = [
{
"start_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 2),
"end_date": start_date
+ datetime.timedelta(weeks=3 * weeks_to_rota / 4),
"reason": "Quarter oop",
}
]
worker4_oop = [
{
"start_date": start_date,
"end_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 4),
"reason": "Quarter oop",
},
{
"start_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 2),
"end_date": start_date
+ datetime.timedelta(weeks=weeks_to_rota / 2)
+ datetime.timedelta(weeks=weeks_to_rota / 4),
"reason": "Quarter oop 2",
},
]
workers = []
workers.append(
Worker(name="worker1", site="group1", grade=1, fte=100, oop=worker1_oop)
)
workers.append(
Worker(name="worker2", site="group1", grade=1, fte=100, oop=worker2_oop)
)
workers.append(
Worker(
name="worker3",
site="group2",
grade=1,
fte=100,
start_date=worker3_start_date,
oop=worker3_oop,
)
)
workers.append(Worker(name="worker4", site="group2", grade=1, oop=worker4_oop))
workers.append(
Worker(name="worker5", site="group2", grade=1, fte=50, nwd=["Mon", "Tue"])
)
worker6_oop = [
{
"start_date": start_date,
"end_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 6),
"reason": "oop",
},
{
"start_date": start_date + datetime.timedelta(weeks=weeks_to_rota / 2),
"end_date": start_date
+ datetime.timedelta(weeks=weeks_to_rota / 2)
+ datetime.timedelta(weeks=weeks_to_rota / 3),
"reason": " oop 2",
},
]
worker7_oop = [
{
"start_date": start_date - datetime.timedelta(weeks=1),
"end_date": Rota.rota_end_date,
"reason": "oop",
},
]
workers.append(
Worker(name="worker6", site="group2", grade=1, fte=100, oop=worker6_oop)
)
workers.append(
Worker(name="worker7", site="group3", grade=1, fte=100, oop=worker7_oop)
)
Rota.add_workers(workers)
Rota.add_shifts(
SingleShift(
sites=("group1", "group2"),
name="d",
length=12.5,
days=days[:5],
balance_offset=10,
workers_required=1,
),
)
Rota.build_and_solve()
# All workers should have an adjusted fte of 50 %
for worker in Rota.get_workers():
if worker.site == "group3":
assert worker.fte_adj == 0
continue
assert worker.fte_adj == pytest.approx(50, 2)
if worker.fte == 100:
assert worker.proportion_rota_to_work == pytest.approx(0.5, 0.2)
assert worker.days_to_work == pytest.approx(35, 1)
assert Rota.get_worker_shift_list(worker).count("d") in (8, 9)
assert Rota.results.solver.status == "ok"
assert Rota.results.solver.termination_condition == "optimal"
Rota.export_rota_to_html("worker_oops")