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proc-rota/rota/run2.py
T
2022-07-11 19:46:40 +01:00

448 lines
15 KiB
Python

from pyomo.environ import *
from pyomo.opt import SolverFactory
from shifts import SingleShift, RotaBuilder, RotaResults, days
from workers import Worker
from copy import deepcopy
import datetime
use_neos = False
weeks_to_rota = 52
sites = ("truro", "exeter", "torquay", "barnstaple", "plymouth")
Rota = RotaBuilder(
datetime.date(2020, 9, 7),
weeks_to_rota=weeks_to_rota,
balance_offset_modifier=1,
max_weekend_frequency=2,
max_night_frequency=2,
)
rota_collections = {
"current": deepcopy(Rota),
# "extended proc nights only": deepcopy(Rota),
# "no weekends": deepcopy(Rota),
# "no twighlights": deepcopy(Rota),
# "no nights": deepcopy(Rota),
# "nights + proc twighlights3 + normal weekends": deepcopy(Rota),
# "nights + proc twighlights4 + normal weekends": deepcopy(Rota),
# "nights + proc twighlights + proc weekends": deepcopy(Rota),
}
rota_collections["current"].add_shifts(
SingleShift(("exeter",), "exeter_twilight", 12.5, days[:5]),
SingleShift(("truro",), "truro_twilight", 12.5, days[:5]),
SingleShift(("torquay",), "torquay_twilight", 12.5, days[:5]),
SingleShift(("plymouth",), "plymouth_twilight", 12.5, days[:5]),
SingleShift(("exeter",), "weekend_exeter", 12.5, days[5:], assign_as_block=True),
SingleShift(("truro",), "weekend_truro", 12.5, days[5:], assign_as_block=True),
SingleShift(("torquay",), "weekend_torquay", 12.5, days[5:], assign_as_block=True),
SingleShift(
sites=("plymouth",), name="weekend_plymouth", length= 8, days=days[5:],
workers_required=2,
assign_as_block=True,
),
SingleShift(
sites=(sites), name="night_weekday", length= 12.25, days=days[:4],
balance_offset=5,
balance_weighting=1,
workers_required=3,
force_as_block=False,
rota_on_nwds=True,
constraints=["night"],
),
SingleShift(
sites=(sites), name="night_weekend", length= 12.25, days=days[4:],
balance_offset=4,
balance_weighting=1,
workers_required=3,
force_as_block=False,
rota_on_nwds=True,
constraints=["night"],
),
)
# rota_collections['extended proc nights only'].add_shifts(
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 13,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 13,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
# rota_collections['no weekends'].add_shifts(
# SingleShift(("exeter", ), "exeter_twilight", 12.5, days[:5]),
# SingleShift(("truro", ), "truro_twilight", 12.5, days[:5]),
# SingleShift(("torquay", ), "torquay_twilight", 12.5, days[:5]),
# SingleShift(("plymouth", ), "plymouth_twilight", 12.5, days[:5]),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 13,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 13,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
# rota_collections['no twighlights'].add_shifts(
# SingleShift(("exeter", ),
# "weekend_exeter",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("truro", ),
# "weekend_truro",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("torquay", ),
# "weekend_torquay",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("plymouth", ),
# "weekend_plymouth",
# 8,
# days[5:],
# workers_required=2,
# assign_as_block=True),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 13,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 13,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
# rota_collections['no nights'].add_shifts(
# SingleShift(("exeter", ), "exeter_twilight", 12.5, days[:5]),
# SingleShift(("truro", ), "truro_twilight", 12.5, days[:5]),
# SingleShift(("torquay", ), "torquay_twilight", 12.5, days[:5]),
# SingleShift(("plymouth", ), "plymouth_twilight", 12.5, days[:5]),
# SingleShift(("exeter", ),
# "weekend_exeter",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("truro", ),
# "weekend_truro",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("torquay", ),
# "weekend_torquay",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("plymouth", ),
# "weekend_plymouth",
# 8,
# days[5:],
# workers_required=2,
# assign_as_block=True),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# )
# rota_collections['nights + proc twighlights4 + normal weekends'].add_shifts(
# SingleShift((sites), "proc_twilight", 12.5, days[:5], workers_required=4),
# SingleShift(("exeter", ),
# "weekend_exeter",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("truro", ),
# "weekend_truro",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("torquay", ),
# "weekend_torquay",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("plymouth", ),
# "weekend_plymouth",
# 8,
# days[5:],
# workers_required=2,
# assign_as_block=True),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 12.25,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 12.25,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
# rota_collections['nights + proc twighlights3 + normal weekends'].add_shifts(
# SingleShift((sites), "proc_twilight", 12.5, days[:5], workers_required=3),
# SingleShift(("exeter", ),
# "weekend_exeter",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("truro", ),
# "weekend_truro",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("torquay", ),
# "weekend_torquay",
# 12.5,
# days[5:],
# assign_as_block=True),
# SingleShift(("plymouth", ),
# "weekend_plymouth",
# 8,
# days[5:],
# workers_required=2,
# assign_as_block=True),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 12.25,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 12.25,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
# rota_collections['nights + proc twighlights + proc weekends'].add_shifts(
# SingleShift((sites), "proc_twilight", 12.5, days[:5], workers_required=3),
# SingleShift((sites), "proc_weekends", 12.5, days[5:], workers_required=3),
# #SingleShift((sites), "night", 12.5, days, balance_weighting=1, workers_required=3, rota_on_nwds=True),
# SingleShift((sites),
# "night_weekday",
# 12.25,
# days[:4],
# balance_offset=5,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# SingleShift((sites),
# "night_weekend",
# 12.25,
# days[4:],
# balance_offset=4,
# balance_weighting=1,
# workers_required=3,
# force_as_block=False,
# rota_on_nwds=True,
# constraints=["night"]),
# )
load_leave = True
if load_leave:
import leave
leave = leave.load_leave()
# Import trainee data
import csv
with open("trainees.csv", newline="") as f:
reader = csv.reader(f, delimiter=",", quotechar="|")
next(reader) # skip header
n = 0
for row in reader:
n = n + 1
# print(row)
name, site, grade, fte, nwd, end_date, oop, extra = row
# Ignore trainees if fte == 0 (what are they doing here anyway)
if fte == "0":
continue
nwds = nwd.split("/") if nwd else None
end_date = end_date if end_date else None
oop = oop.split("-") if oop else None
if load_leave:
if name not in leave:
raise ValueError("{} not found it leave requests".format(name))
leave_requests = [i[0] for i in leave[name] if i[0] != ""]
# print(nwds, end_date, oop)
for rot in rota_collections:
Rota = rota_collections[rot]
Rota.add_worker(
Worker(
Rota,
n,
name,
site.lower(),
int(grade[2]),
int(fte),
nwds,
end_date,
oop,
not_available_to_work=leave_requests,
)
)
with open("rotas.html", "w") as f:
f.write(
"""<html>
<head>
<link rel="stylesheet" type="text/css" href="timetable.css">
<script src="https://ajax.googleapis.com/ajax/libs/jquery/3.5.1/jquery.min.js"></script>
<script src="timetable.js" defer></script>
</head>
<body>"""
)
for rot in rota_collections:
print("Running rota: ", rot)
Rota = rota_collections[rot]
Rota.build_workers()
print("-Building model")
Rota.build_model()
print("-Building model: complete")
opt = SolverFactory("cbc") # choose a solver
# opt = SolverFactory('ipopt') # choose a solver
if use_neos:
print("-Solving with neos")
solver_manager = SolverManagerFactory("neos") # Solve in neos server
results = solver_manager.solve(
Rota.model, opt=opt, logfile="{}.log".format(rot)
)
else:
print("-Solving with local cbc")
results = opt.solve(
Rota.model,
tee=True,
options={
"seconds": 10200,
"allow": 2000,
},
logfile="{}.log".format(rot),
) # solve the model with the, options="seconds=60" selected solver
results.solver.status
ResultsHolder = RotaResults(Rota, results)
week_table = ResultsHolder.get_work_table() # list with the required workers
# worker_timetable = ResultsHolder.get_worker_timetable()
worker_timetable_brief = ResultsHolder.get_worker_timetable_brief(show_prefs=False)
worker_shift_summary = ResultsHolder.get_shift_summary()
ResultsHolder.export_rota_to_csv("rotas/" + rot)
with open("rotas.html", "a") as f:
f.write("<hr>")
f.write("<h2>{}</h2>".format(rot))
# f.write("----------------------------")
f.write("\n\n")
for s in Rota.shifts:
f.write(
"<div id='{}-{}-shift-summary' class='shift-summary'>{}</div>".format(
rot, s.name, s.get_shift_summary()
)
)
f.write("\n")
f.write("\n\n")
f.write(ResultsHolder.get_worker_timetable_html(table_name=rot))
f.write("\n\n")
f.write(
"<pre class='worker-shift-summary'>{}</pre>".format(worker_shift_summary)
)
f.write("\n\n\n")
# workers_no_pref = ResultsHolder.get_no_preference(Rota.model.no_pref) # list with the non-satisfied workers (work on Sat but not on Sun)
# worker_night_block = ResultsHolder.get_night_blocks()
# multi = ResultsHolder.get_multinight()
# break
with open("rotas.html", "a") as f:
f.write("</body></html>")