Google Optimization Tools实现员工排班计划Scheduling【Python版】
上一篇介绍了《使用.Net Core与Google Optimization Tools实现员工排班计划Scheduling》,这次将Google官方文档python实现的版本的完整源码献出来,以满足喜爱python的朋友。
顺便可以多展开一下话题,到现在为止的这一套用法,可以应对在线教育中的排班、排课场景, 本质上就是如何合理地设计变量与约束,欢迎交流各种踩坑经历,分享巧妙的应用场景。
from __future__ import print_function import sys from ortools.constraint_solver import pywrapcp def main(): # Creates the solver. solver = pywrapcp.Solver("schedule_shifts") num_nurses = 4 num_shifts = 4 # Nurse assigned to shift 0 means not working that day. num_days = 7 # [START] # Create shift variables. shifts = {} for j in range(num_nurses): for i in range(num_days): shifts[(j, i)] = solver.IntVar(0, num_shifts - 1, "shifts(%i,%i)" % (j, i)) shifts_flat = [shifts[(j, i)] for j in range(num_nurses) for i in range(num_days)] # Create nurse variables. nurses = {} for j in range(num_shifts): for i in range(num_days): nurses[(j, i)] = solver.IntVar(0, num_nurses - 1, "shift%d day%d" % (j,i)) # Set relationships between shifts and nurses. for day in range(num_days): nurses_for_day = [nurses[(j, day)] for j in range(num_shifts)] for j in range(num_nurses): s = shifts[(j, day)] solver.Add(s.IndexOf(nurses_for_day) == j) # Make assignments different on each day for i in range(num_days): solver.Add(solver.AllDifferent([shifts[(j, i)] for j in range(num_nurses)])) solver.Add(solver.AllDifferent([nurses[(j, i)] for j in range(num_shifts)])) # Each nurse works 5 or 6 days in a week. for j in range(num_nurses): solver.Add(solver.Sum([shifts[(j, i)] > 0 for i in range(num_days)]) >= 5) solver.Add(solver.Sum([shifts[(j, i)] > 0 for i in range(num_days)]) <= 6) # Create works_shift variables. works_shift[(i, j)] is True if nurse # i works shift j at least once during the week. works_shift = {} for i in range(num_nurses): for j in range(num_shifts): works_shift[(i, j)] = solver.BoolVar('shift%d nurse%d' % (i, j)) for i in range(num_nurses): for j in range(num_shifts): solver.Add(works_shift[(i, j)] == solver.Max([shifts[(i, k)] == j for k in range(num_days)])) # For each shift (other than 0), at most 2 nurses are assigned to that shift # during the week. for j in range(1, num_shifts): solver.Add(solver.Sum([works_shift[(i, j)] for i in range(num_nurses)]) <= 2) # If s nurses works shifts 2 or 3 on, he must also work that shift the previous # day or the following day. solver.Add(solver.Max(nurses[(2, 0)] == nurses[(2, 1)], nurses[(2, 1)] == nurses[(2, 2)]) == 1) solver.Add(solver.Max(nurses[(2, 1)] == nurses[(2, 2)], nurses[(2, 2)] == nurses[(2, 3)]) == 1) solver.Add(solver.Max(nurses[(2, 2)] == nurses[(2, 3)], nurses[(2, 3)] == nurses[(2, 4)]) == 1) solver.Add(solver.Max(nurses[(2, 3)] == nurses[(2, 4)], nurses[(2, 4)] == nurses[(2, 5)]) == 1) solver.Add(solver.Max(nurses[(2, 4)] == nurses[(2, 5)], nurses[(2, 5)] == nurses[(2, 6)]) == 1) solver.Add(solver.Max(nurses[(2, 5)] == nurses[(2, 6)], nurses[(2, 6)] == nurses[(2, 0)]) == 1) solver.Add(solver.Max(nurses[(2, 6)] == nurses[(2, 0)], nurses[(2, 0)] == nurses[(2, 1)]) == 1) solver.Add(solver.Max(nurses[(3, 0)] == nurses[(3, 1)], nurses[(3, 1)] == nurses[(3, 2)]) == 1) solver.Add(solver.Max(nurses[(3, 1)] == nurses[(3, 2)], nurses[(3, 2)] == nurses[(3, 3)]) == 1) solver.Add(solver.Max(nurses[(3, 2)] == nurses[(3, 3)], nurses[(3, 3)] == nurses[(3, 4)]) == 1) solver.Add(solver.Max(nurses[(3, 3)] == nurses[(3, 4)], nurses[(3, 4)] == nurses[(3, 5)]) == 1) solver.Add(solver.Max(nurses[(3, 4)] == nurses[(3, 5)], nurses[(3, 5)] == nurses[(3, 6)]) == 1) solver.Add(solver.Max(nurses[(3, 5)] == nurses[(3, 6)], nurses[(3, 6)] == nurses[(3, 0)]) == 1) solver.Add(solver.Max(nurses[(3, 6)] == nurses[(3, 0)], nurses[(3, 0)] == nurses[(3, 1)]) == 1) # Create the decision builder. db = solver.Phase(shifts_flat, solver.CHOOSE_FIRST_UNBOUND, solver.ASSIGN_MIN_VALUE) # Create the solution collector. solution = solver.Assignment() solution.Add(shifts_flat) collector = solver.AllSolutionCollector(solution) solver.Solve(db, [collector]) print("Solutions found:", collector.SolutionCount()) print("Time:", solver.WallTime(), "ms") print() # Display a few solutions picked at random. a_few_solutions = [859, 2034, 5091, 7003] for sol in a_few_solutions: print("Solution number" , sol, '\n') for i in range(num_days): print("Day", i) for j in range(num_nurses): print("Nurse", j, "assigned to task", collector.Value(sol, shifts[(j, i)])) print() if __name__ == "__main__": main()