Exemplo n.º 1
0
def makeSchedule(content):
    horizon = content["horizon"]
    print(horizon)
    # Define all the players
    MyScenario = Scenario('manufacturing_schedule', horizon=horizon)
    MyResources = {}
    MyTasks = {}

    # Define the resources (manufacturing lines)
    manufacturing_lines = content["manufacturing_lines"]
    print(manufacturing_lines)
    for manufacturing_line in manufacturing_lines:
        MyResources[manufacturing_line] = MyScenario.Resource(
            str(manufacturing_line))

    # Define tasks which are already present which must remain in the same location
    # Known as blocking tasks
    blocks = content["blocks"]
    print(blocks)
    for block in blocks:
        blockid = str(block["goal_name"] + "_" + str(block["sku_number"]))
        manufacturing_line_name = block["manufacturing_line_name"]
        start = block["start"]
        end = block["end"]

        # Create task and add the resource that will execute it
        task = MyScenario.Task(blockid, length=end - start)
        task += MyResources[manufacturing_line_name]

        # Define the bounds
        MyScenario += task > start, task < end

    # New tasks which must be scheduled
    tasks = content["tasks"]
    print(tasks)
    for task in tasks:
        taskid = str(task["goal_name"] + "_" + str(task["sku_number"]))
        duration = task["duration"]
        manufacturing_line_names = task["manufacturing_line_names"]
        deadline = task["deadline"]

        t = MyScenario.Task(taskid, length=duration, delay_cost=1)

        resources = MyResources[manufacturing_line_names[0]]
        for i in range(1, len(manufacturing_line_names)):
            resources = resources | MyResources[manufacturing_line_names[i]]
        t += resources

        MyScenario += t > 0, t < deadline

    solvers.mip.solve(MyScenario, msg=1)
    plotters.matplotlib.plot(MyScenario, img_filename='household.png')
    return MyScenario.solution()
Exemplo n.º 2
0
from pyschedule import plotters, Scenario, solvers

S = Scenario('asdf', horizon=20)

r = S.Resource('r', periods=range(20))
t2 = S.Task('CE2', length=20)
t2 += r

res = solvers.mip.solve_tsp(S, msg=0)

print(S.solution())
print(S)
Exemplo n.º 3
0
def solve(solver_data):
    # create scenario
    scenario = Scenario(name='scenario', horizon=int(solver_data['horizon']))

    # resources list
    resources = {}
    resources_map = {}
    resources_mapi = {}
    resources_ai = 0

    # tasks list
    tasks = {}
    tasks_map = {}
    tasks_mapi = {}
    tasks_ai = 0

    # blocks ai
    blocks_ai = 0

    #
    # enter resources

    print('[INFO] Importing resources...')
    for i, resource in enumerate(solver_data['resources']):
        print('[INFO] Importing resources... ({}/{})'.format(
            i + 1, len(solver_data['resources'])),
              end='\r')

        # convert to [name, size = 1]
        if not isinstance(resource, list):
            resource = [resource, 1]

        # label given to the solver backend
        rname = 'r' + str(resources_ai)

        has_parallel = False
        if resource[0].startswith('teacher_'):
            for task in solver_data['tasks']:
                if resource[0] in task['resources'] and task['tags'][
                        'block_value'] != task['length']:
                    has_parallel = True
                    print('Found parallel', resource, '                     ')
                    break

        size = 2 if has_parallel else 1

        resources[rname] = scenario.Resource(rname, size=size)
        resources_map[rname] = resource[0]
        resources_mapi[resource[0]] = rname
        resources_ai += 1

        if has_parallel:
            scenario += resources[rname]['block_value'][
                0:int(solver_data['horizon']):1] <= 1

    #
    # enter tasks

    print('[INFO] Importing tasks...')
    for task in solver_data['tasks']:
        tname = 't' + str(tasks_ai)

        tasks[tname] = scenario.Task(tname,
                                     length=task['length'],
                                     **task['tags'])
        tasks_map[tname] = task['label']
        tasks_mapi[task['label']] = tname
        tasks_ai += 1

        tasks[tname]['r_' + tname] = 1

        if 'period' in task and task['period'] != -1:
            tasks[tname].periods = [task['period']]
        else:
            if task['length'] == 4:
                tasks[tname].periods = [
                    i for i in range(0, solver_data['horizon']) if i % 4 == 0
                ]
            else:
                tasks[tname].periods = [
                    i for i in range(0, solver_data['horizon']) if i % 2 == 0
                ]

        # add resources to task
        for res_name in task['resources']:
            tasks[tname] += resources[resources_mapi[res_name]]

    #
    # enter blocks

    print('[INFO] Importing blocks...')
    for block in solver_data['blocks']:
        bname = 'b' + str(blocks_ai)

        task = scenario.Task(bname,
                             length=1,
                             periods=[block["start"]],
                             plot_color='#000000',
                             block_value=1)

        task += resources[resources_mapi[block["resource"]]]

        blocks_ai += 1

    print('[INFO] Importing sblocks...')
    for block in solver_data['sblocks']:
        bname = 'b' + str(blocks_ai)

        task = scenario.Task(bname,
                             length=1,
                             periods=[block["start"]],
                             plot_color='#000000',
                             schedule_cost=block["cost"],
                             block_value=1)

        task += resources[resources_mapi[block["resource"]]]

        blocks_ai += 1

    #
    # enter sync constraints

    print('[INFO] Importing sync constraints...')
    for constraint in solver_data['constraints']['sync']:
        scenario += tasks[tasks_mapi[constraint['tasks'][0]]] <= tasks[
            tasks_mapi[constraint['tasks'][1]]] + tasks[tasks_mapi[
                constraint['tasks'][0]]].length

    #
    # enter cap constraints

    print(solver_data['constraints']['cap'])
    # solver_data['constraints']['cap'] = [
    #     ['group_118', 'group_117'], ['group_118', 'group_116']]
    for i, constraint in enumerate(solver_data['constraints']['cap']):
        print('[INFO] Importing capacity constraints... ({}/{})'.format(
            i + 1, len(solver_data['constraints']['cap'])))

        for res in resources.values():
            if res.size == 1:
                continue

            cond = res[constraint[0]][0:int(solver_data['horizon']):1].max

            for t in constraint[1:]:
                cond = cond + res[t][0:int(solver_data['horizon']):1].max

            scenario += cond <= 1

    #
    # solve

    if solvers.mip.solve(scenario, msg=1):
        # plotters.matplotlib.plot(scenario, img_filename='out.png', fig_size=(
        #     resources_ai / 3, resources_ai / 2))

        solution = scenario.solution()
        real_solution = [[str(l[0]), str(l[1]), l[2], l[3]] for l in solution]

        for item in real_solution:
            if item[0][0] == 'b':
                continue
            item[0] = tasks_map[str(item[0])]
            item[1] = resources_map[str(item[1])]

        return {'solved': True, 'data': real_solution}
    else:
        return {'solved': False, 'error': 'Impossible'}
Exemplo n.º 4
0
               periods=[
                   getPeriodFromTime(t)
                   for t in data2['times'][i]['availableTimes']
               ]))

name_perms = list(combinations(range(len(name_list)), 2))
final = [[S.resources()[x[0]], S.resources()[x[1]]] for x in name_perms]

for t in task_list:
    random.shuffle(resource_list)
    t += alt(resource_list[:10]), alt(resource_list[10:])

# compute and print a schedule

solvers.mip.solve(S, random_seed=random.randint(1, 1000))
soln = S.solution()
interviewList = []
for s in range(0, len(soln), 2):
    # assert names & times match before merging
    assert (soln[s][0] == soln[s + 1][0])
    assert (soln[s][2] == soln[s + 1][2])
    interview = {}
    interview["name"] = str(soln[s][0])
    interview['interviewers'] = [str(soln[s][1]), str(soln[s + 1][1])]
    interview['start_time'] = data['allTimes'][soln[s][2]]
    interview['duration'] = data['interviewDuration']
    interviewList.append(interview)

print(json.dumps(interviewList))
plotters.matplotlib.plot(S, img_filename='test4.png')