Exemplo n.º 1
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def rmpyl_episode_ids(hello,uav):
    """Example of how episode ID's can be used to retrieve them."""
    prog = RMPyL()

    first_uav_seq = prog.sequence(uav.scan(),uav.fly(),id='uav-1-seq')
    second_uav_seq = prog.sequence(uav.scan(),uav.fly(),id='uav-2-seq')

    first_hello_seq = prog.sequence(hello.scan(),hello.fly(),id='hello-1-seq')
    second_hello_seq = prog.sequence(hello.scan(),hello.fly(),id='hello-2-seq')

    prog *= prog.parallel(prog.sequence(first_uav_seq,second_uav_seq,id='uav-seqs'),
                          prog.sequence(first_hello_seq,second_hello_seq,id='hello-seqs'),id='par-seqs')

    #This could have been accomplished much more easily by using the sequence
    #variables directly, but I wanted to show how episodes can be retrieved by
    #ID.
    tc1 = TemporalConstraint(start=prog.episode_by_id('uav-1-seq').end,
                            end=prog.episode_by_id('hello-2-seq').start,
                            ctype='controllable',lb=2.0,ub=3.0)

    tc2 = TemporalConstraint(start=prog.episode_by_id('hello-1-seq').end,
                            end=prog.episode_by_id('uav-2-seq').start,
                            ctype='controllable',lb=0.5,ub=1.0)

    prog.add_temporal_constraint(tc1)
    prog.add_temporal_constraint(tc2)

    return prog
Exemplo n.º 2
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def to_rmpyl(tcs):
    """
    Converts the temporal constraints into an RMPyL program, which can then
    be exported to a TPN.
    """
    prog = RMPyL()
    for tc in tcs:
        prog.add_temporal_constraint(tc)
    return prog
Exemplo n.º 3
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def rmpyl_parallel_user_defined_tcs(hello,uav):
    """Simple RMPyL example with parallel execution of actions with user-defined
    constraints."""
    prog = RMPyL()
    hello_flight = hello.fly()
    uav_flight = uav.fly()
    uav_scan = uav.scan()
    prog *= hello_flight+(uav_scan*uav_flight)

    tc1 = TemporalConstraint(start=uav_scan.end,end=hello_flight.start,
                             ctype='controllable',lb=2.0,ub=3.0)

    tc2 = TemporalConstraint(start=hello_flight.end,end=uav_flight.start,
                             ctype='controllable',lb=3.0,ub=4.0)
    for tc in [tc1,tc2]:
        prog.add_temporal_constraint(tc)

    prog.add_overall_temporal_constraint(ctype='controllable',lb=0.0,ub=50.0)

    return prog
Exemplo n.º 4
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def rmpyl_inconsistent_user_defined_tcs(hello,uav):
    """Simple RMPyL example with parallel execution of actions on different choice
    branches with user-defined constraints."""
    try:
        prog = RMPyL()
        hello_flights = [hello.fly() for i in range(2)] #two different hello flights
        uav_flights = [uav.fly() for i in range(2)] #two different uav flights

        #Choice using the previous example as a subroutine to generate partial plans
        prog *= prog.decide({'name':'Choose-branch','domain':['1','2'],'utility':[1,2]},
                            hello_flights[0]*uav_flights[0],
                            uav_flights[1]*hello_flights[1])

        tc = TemporalConstraint(start=hello_flights[0].end,end=hello_flights[1].start,
                                 ctype='controllable',lb=2.0,ub=3.0)

        #This is a constraint between disjoint plan branches. Therefore, it MUST
        #cause an error of empty constraint support
        prog.add_temporal_constraint(tc)
    except InconsistentSupportError:
        print('Empty support error correctly caught!')
        prog=None

    return prog
Exemplo n.º 5
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        elapsed = time.time()-start
        print('\n##### All solving took %.4f s'%(elapsed))

        prog = RMPyL(name='run()')
        pddl_episodes = [Episode(id=make_episode_id(t,op),
                                 start=Event(name='start-of-%d-%s'%(t,op)),
                                 end=Event(name='end-of-%d-%s'%(t,op)),
                                 action=op,
                                 duration=rss_duration_model_func(op)) for t,op in enumerate(plan)]
        prog.plan = prog.sequence(*pddl_episodes)
        # prog.add_overall_temporal_constraint(ctype='controllable',lb=0.0,ub=2000.0)
        #Adds temporal window to the plan
        for t,op in enumerate(plan):
            bounds, tc_type = rss_time_window_model_func(op)
            for tc in time_window_constraints(tc_type,bounds,prog.first_event,prog.episode_by_id(make_episode_id(t,op))):
                prog.add_temporal_constraint(tc)

        #Dummy episodes that enable transmissions
        activation_episodes=[]
        activation_tcs=[]
        global_start=Event(name='global-start')

        for op_name,op_param_dict in time_windows['time_windows'].items():
            for arg_set,window_dict in op_param_dict.items():
                for ev_type,time_bound in window_dict.items():
                    orb_ep_id='%s_event_%s-%s'%(ev_type,op_name,'-'.join(arg_set))
                    activation_episodes.append(Episode(id=orb_ep_id,
                                                    action='(%s)'%(orb_ep_id.replace('-',' ')),
                                                    duration={'ctype':'controllable','lb':0.005,'ub':0.1}))
                    activation_tcs.append(TemporalConstraint(start=global_start,
                                                             end=activation_episodes[-1].start,
Exemplo n.º 6
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def rmpyl_breakfast():
    """
    Example from (Levine & Williams, ICAPS14).
    """
    #Actions that Alice performs
    get_mug_ep = Episode(action='(get alice mug)',
                         duration={
                             'ctype': 'controllable',
                             'lb': 0.5,
                             'ub': 1.0
                         })
    get_glass_ep = Episode(action='(get alice glass)',
                           duration={
                               'ctype': 'controllable',
                               'lb': 0.5,
                               'ub': 1.0
                           })

    make_cofee_ep = Episode(action='(make-coffee alice)',
                            duration={
                                'ctype': 'controllable',
                                'lb': 3.0,
                                'ub': 5.0
                            })
    pour_cofee_ep = Episode(action='(pour-coffee alice mug)',
                            duration={
                                'ctype': 'controllable',
                                'lb': 0.5,
                                'ub': 1.0
                            })
    pour_juice_glass = Episode(action='(pour-juice alice glass)',
                               duration={
                                   'ctype': 'controllable',
                                   'lb': 0.5,
                                   'ub': 1.0
                               })

    get_bagel_ep = Episode(action='(get alice bagel)',
                           duration={
                               'ctype': 'controllable',
                               'lb': 0.5,
                               'ub': 1.0
                           })
    get_cereal_ep = Episode(action='(get alice cereal)',
                            duration={
                                'ctype': 'controllable',
                                'lb': 0.5,
                                'ub': 1.0
                            })

    toast_bagel_ep = Episode(action='(toast alice bagel)',
                             duration={
                                 'ctype': 'controllable',
                                 'lb': 3.0,
                                 'ub': 5.0
                             })
    add_cheese_bagel_ep = Episode(action='(add-cheese alice bagel)',
                                  duration={
                                      'ctype': 'controllable',
                                      'lb': 1.0,
                                      'ub': 2.0
                                  })
    mix_cereal_ep = Episode(action='(mix-cereal alice milk)',
                            duration={
                                'ctype': 'controllable',
                                'lb': 1.0,
                                'ub': 2.0
                            })

    #Actions that the robot performs
    get_grounds_ep = Episode(action='(get grounds robot)',
                             duration={
                                 'ctype': 'controllable',
                                 'lb': 0.5,
                                 'ub': 1.0
                             })
    get_juice_ep = Episode(action='(get juice robot)',
                           duration={
                               'ctype': 'controllable',
                               'lb': 0.5,
                               'ub': 1.0
                           })
    get_milk_ep = Episode(action='(get milk robot)',
                          duration={
                              'ctype': 'controllable',
                              'lb': 0.5,
                              'ub': 1.0
                          })
    get_cheese_ep = Episode(action='(get cheese robot)',
                            duration={
                                'ctype': 'controllable',
                                'lb': 0.5,
                                'ub': 1.0
                            })

    prog = RMPyL()
    prog *= prog.sequence(
        prog.parallel(
            prog.observe(
                {
                    'name': 'observe-utensil',
                    'domain': ['Mug', 'Glass'],
                    'ctype': 'uncontrollable'
                },
                get_mug_ep,
                get_glass_ep,
                id='observe-utensil-ep'),
            prog.decide(
                {
                    'name': 'choose-beverage-ingredient',
                    'domain': ['Grounds', 'Juice'],
                    'utility': [0, 0]
                },
                get_grounds_ep,
                get_juice_ep,
                id='choose-beverage-ingredient-ep')),
        prog.observe(
            {
                'name': 'observe-alice-drink',
                'domain': ['Coffee', 'Juice'],
                'ctype': 'uncontrollable'
            },
            prog.sequence(make_cofee_ep, pour_cofee_ep),
            pour_juice_glass,
            id='observe-alice-drink-ep'),
        prog.parallel(prog.observe(
            {
                'name': 'observe-food',
                'domain': ['Bagel', 'Cereal'],
                'ctype': 'uncontrollable'
            },
            get_bagel_ep,
            get_cereal_ep,
            id='observe-food-ep'),
                      prog.decide(
                          {
                              'name': 'choose-food-ingredient',
                              'domain': ['Milk', 'Cheese'],
                              'utility': [0, 0]
                          },
                          get_milk_ep,
                          get_cheese_ep,
                          id='choose-food-ingredient-ep'),
                      id='parallel-food-ep'),
        prog.observe(
            {
                'name': 'observe-alice-food',
                'domain': ['Bagel', 'Cereal'],
                'ctype': 'uncontrollable'
            }, prog.sequence(toast_bagel_ep, add_cheese_bagel_ep),
            mix_cereal_ep),
        id='breakfast-sequence')

    extra_tcs = [
        TemporalConstraint(
            start=prog.episode_by_id('breakfast-sequence').start,
            end=prog.episode_by_id('observe-utensil-ep').start,
            ctype='controllable',
            lb=0.0,
            ub=0.0),
        TemporalConstraint(
            start=prog.episode_by_id('breakfast-sequence').start,
            end=prog.episode_by_id('choose-beverage-ingredient-ep').start,
            ctype='controllable',
            lb=0.2,
            ub=0.3),
        TemporalConstraint(start=prog.episode_by_id('parallel-food-ep').start,
                           end=prog.episode_by_id('observe-food-ep').start,
                           ctype='controllable',
                           lb=0.0,
                           ub=0.0),
        TemporalConstraint(
            start=prog.episode_by_id('parallel-food-ep').start,
            end=prog.episode_by_id('choose-food-ingredient-ep').start,
            ctype='controllable',
            lb=0.2,
            ub=0.3)
    ]

    for tc in extra_tcs:
        prog.add_temporal_constraint(tc)

    prog.add_overall_temporal_constraint(ctype='controllable', lb=0.0, ub=7.0)
    prog.simplify_temporal_constraints()

    return prog
Exemplo n.º 7
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def rmpyl_breakfast():
    """
    Example from (Levine & Williams, ICAPS14).
    """
    #Actions that Alice performs
    get_mug_ep = Episode(action='(get alice mug)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    get_glass_ep = Episode(action='(get alice glass)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})

    make_cofee_ep = Episode(action='(make-coffee alice)',duration={'ctype':'controllable','lb':3.0,'ub':5.0})
    pour_cofee_ep = Episode(action='(pour-coffee alice mug)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    pour_juice_glass = Episode(action='(pour-juice alice glass)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})

    get_bagel_ep = Episode(action='(get alice bagel)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    get_cereal_ep = Episode(action='(get alice cereal)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})

    toast_bagel_ep = Episode(action='(toast alice bagel)',duration={'ctype':'controllable','lb':3.0,'ub':5.0})
    add_cheese_bagel_ep = Episode(action='(add-cheese alice bagel)',duration={'ctype':'controllable','lb':1.0,'ub':2.0})
    mix_cereal_ep = Episode(action='(mix-cereal alice milk)',duration={'ctype':'controllable','lb':1.0,'ub':2.0})

    #Actions that the robot performs
    get_grounds_ep = Episode(action='(get grounds robot)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    get_juice_ep = Episode(action='(get juice robot)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    get_milk_ep = Episode(action='(get milk robot)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})
    get_cheese_ep = Episode(action='(get cheese robot)',duration={'ctype':'controllable','lb':0.5,'ub':1.0})

    prog = RMPyL()
    prog *= prog.sequence(
                prog.parallel(
                    prog.observe(
                        {'name':'observe-utensil','domain':['Mug','Glass'],'ctype':'uncontrollable'},
                        get_mug_ep,
                        get_glass_ep,
                        id='observe-utensil-ep'),
                    prog.decide(
                        {'name':'choose-beverage-ingredient','domain':['Grounds','Juice'],'utility':[0,0]},
                        get_grounds_ep,
                        get_juice_ep,
                        id='choose-beverage-ingredient-ep')),
                prog.observe(
                    {'name':'observe-alice-drink','domain':['Coffee','Juice'],'ctype':'uncontrollable'},
                    prog.sequence(make_cofee_ep,pour_cofee_ep),
                    pour_juice_glass,
                    id='observe-alice-drink-ep'),
                prog.parallel(
                    prog.observe(
                        {'name':'observe-food','domain':['Bagel','Cereal'],'ctype':'uncontrollable'},
                        get_bagel_ep,
                        get_cereal_ep,
                        id='observe-food-ep'),
                    prog.decide(
                        {'name':'choose-food-ingredient','domain':['Milk','Cheese'],'utility':[0,0]},
                        get_milk_ep,
                        get_cheese_ep,
                        id='choose-food-ingredient-ep'),
                    id='parallel-food-ep'),
                prog.observe(
                    {'name':'observe-alice-food','domain':['Bagel','Cereal'],'ctype':'uncontrollable'},
                    prog.sequence(toast_bagel_ep,add_cheese_bagel_ep),
                    mix_cereal_ep),
                id='breakfast-sequence')

    extra_tcs = [TemporalConstraint(start=prog.episode_by_id('breakfast-sequence').start,
                                  end=prog.episode_by_id('observe-utensil-ep').start,
                                  ctype='controllable',lb=0.0,ub=0.0),
                 TemporalConstraint(start=prog.episode_by_id('breakfast-sequence').start,
                                    end=prog.episode_by_id('choose-beverage-ingredient-ep').start,
                                    ctype='controllable',lb=0.2,ub=0.3),
                 TemporalConstraint(start=prog.episode_by_id('parallel-food-ep').start,
                                    end=prog.episode_by_id('observe-food-ep').start,
                                    ctype='controllable',lb=0.0,ub=0.0),
                 TemporalConstraint(start=prog.episode_by_id('parallel-food-ep').start,
                                    end=prog.episode_by_id('choose-food-ingredient-ep').start,
                                    ctype='controllable',lb=0.2,ub=0.3)]

    for tc in extra_tcs:
        prog.add_temporal_constraint(tc)

    prog.add_overall_temporal_constraint(ctype='controllable',lb=0.0,ub=7.0)
    prog.simplify_temporal_constraints()

    return prog
Exemplo n.º 8
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            Episode(id=make_episode_id(t, op),
                    start=Event(name='start-of-%d-%s' % (t, op)),
                    end=Event(name='end-of-%d-%s' % (t, op)),
                    action=op,
                    duration=rss_duration_model_func(op))
            for t, op in enumerate(plan)
        ]
        prog.plan = prog.sequence(*pddl_episodes)
        # prog.add_overall_temporal_constraint(ctype='controllable',lb=0.0,ub=2000.0)
        #Adds temporal window to the plan
        for t, op in enumerate(plan):
            bounds, tc_type = rss_time_window_model_func(op)
            for tc in time_window_constraints(
                    tc_type, bounds, prog.first_event,
                    prog.episode_by_id(make_episode_id(t, op))):
                prog.add_temporal_constraint(tc)

        #Dummy episodes that enable transmissions
        activation_episodes = []
        activation_tcs = []
        global_start = Event(name='global-start')

        for op_name, op_param_dict in time_windows['time_windows'].items():
            for arg_set, window_dict in op_param_dict.items():
                for ev_type, time_bound in window_dict.items():
                    orb_ep_id = '%s_event_%s-%s' % (ev_type, op_name,
                                                    '-'.join(arg_set))
                    activation_episodes.append(
                        Episode(id=orb_ep_id,
                                action='(%s)' % (orb_ep_id.replace('-', ' ')),
                                duration={