ortools-clone/ortools/sat/samples/nurses_sat.py

#!/usr/bin/env python3
# Copyright 2010-2022 Google LLC
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

# [START program]
"""Example of a simple nurse scheduling problem."""
# [START import]
from ortools.sat.python import cp_model
# [END import]


def main():
    # Data.
    # [START data]
    num_nurses = 4
    num_shifts = 3
    num_days = 3
    all_nurses = range(num_nurses)
    all_shifts = range(num_shifts)
    all_days = range(num_days)
    # [END data]

    # Creates the model.
    # [START model]
    model = cp_model.CpModel()
    # [END model]

    # Creates shift variables.
    # shifts[(n, d, s)]: nurse 'n' works shift 's' on day 'd'.
    # [START variables]
    shifts = {}
    for n in all_nurses:
        for d in all_days:
            for s in all_shifts:
                shifts[(n, d,
                        s)] = model.NewBoolVar('shift_n%id%is%i' % (n, d, s))
    # [END variables]

    # Each shift is assigned to exactly one nurse in the schedule period.
    # [START exactly_one_nurse]
    for d in all_days:
        for s in all_shifts:
            model.AddExactlyOne(shifts[(n, d, s)] for n in all_nurses)
    # [END exactly_one_nurse]

    # Each nurse works at most one shift per day.
    # [START at_most_one_shift]
    for n in all_nurses:
        for d in all_days:
            model.AddAtMostOne(shifts[(n, d, s)] for s in all_shifts)
    # [END at_most_one_shift]

    # [START assign_nurses_evenly]
    # Try to distribute the shifts evenly, so that each nurse works
    # min_shifts_per_nurse shifts. If this is not possible, because the total
    # number of shifts is not divisible by the number of nurses, some nurses will
    # be assigned one more shift.
    min_shifts_per_nurse = (num_shifts * num_days) // num_nurses
    if num_shifts * num_days % num_nurses == 0:
        max_shifts_per_nurse = min_shifts_per_nurse
    else:
        max_shifts_per_nurse = min_shifts_per_nurse + 1
    for n in all_nurses:
        num_shifts_worked = []
        for d in all_days:
            for s in all_shifts:
                num_shifts_worked.append(shifts[(n, d, s)])
        model.Add(min_shifts_per_nurse <= sum(num_shifts_worked))
        model.Add(sum(num_shifts_worked) <= max_shifts_per_nurse)
    # [END assign_nurses_evenly]

    # Creates the solver and solve.
    # [START parameters]
    solver = cp_model.CpSolver()
    solver.parameters.linearization_level = 0
    # Enumerate all solutions.
    solver.parameters.enumerate_all_solutions = True

    # [END parameters]

    # [START solution_printer]
    class NursesPartialSolutionPrinter(cp_model.CpSolverSolutionCallback):
        """Print intermediate solutions."""

        def __init__(self, shifts, num_nurses, num_days, num_shifts, limit):
            cp_model.CpSolverSolutionCallback.__init__(self)
            self._shifts = shifts
            self._num_nurses = num_nurses
            self._num_days = num_days
            self._num_shifts = num_shifts
            self._solution_count = 0
            self._solution_limit = limit

        def on_solution_callback(self):
            self._solution_count += 1
            print('Solution %i' % self._solution_count)
            for d in range(self._num_days):
                print('Day %i' % d)
                for n in range(self._num_nurses):
                    is_working = False
                    for s in range(self._num_shifts):
                        if self.Value(self._shifts[(n, d, s)]):
                            is_working = True
                            print('  Nurse %i works shift %i' % (n, s))
                    if not is_working:
                        print('  Nurse {} does not work'.format(n))
            if self._solution_count >= self._solution_limit:
                print('Stop search after %i solutions' % self._solution_limit)
                self.StopSearch()

        def solution_count(self):
            return self._solution_count

    # Display the first five solutions.
    solution_limit = 5
    solution_printer = NursesPartialSolutionPrinter(shifts, num_nurses,
                                                    num_days, num_shifts,
                                                    solution_limit)
    # [END solution_printer]

    # [START solve]
    solver.Solve(model, solution_printer)
    # [END solve]

    # Statistics.
    # [START statistics]
    print('\nStatistics')
    print('  - conflicts      : %i' % solver.NumConflicts())
    print('  - branches       : %i' % solver.NumBranches())
    print('  - wall time      : %f s' % solver.WallTime())
    print('  - solutions found: %i' % solution_printer.solution_count())
    # [END statistics]


if __name__ == '__main__':
    main()
# [END program]