def builder():
     Meta_meta = Clabject(name="MetaMeta", parents=[], init_props={})
     prop_a = create_clabject_prop(n="a",
                                   t=1,
                                   f="*",
                                   i_f=False,
                                   c=[is_str_constraint])
     prob_b = create_clabject_prop(n="b",
                                   t=1,
                                   f="*",
                                   i_f=False,
                                   i_assoc=True)
     Meta_meta.define_props([prop_a, prob_b])
     return Meta_meta
Пример #2
0
def test_invalid_src_clabject_state(MetaSrcClab, MetaTgtClab,
                                    clab_state_constr):
    # The following state constraint should be evaluated only on instance level
    state_constr_at_least_4_arr_members_prop = create_clabject_prop(
        n=clab_state_constr.name,
        t=2,
        f='*',
        c=[],
        i_sc=True,
        v=clab_state_constr)
    MetaSrcClab.define_props([state_constr_at_least_4_arr_members_prop])
    TgtClab = MetaTgtClab(name="TgtClab", parents=[], init_props={})
    inst_Tgt_Clab = TgtClab(name="inst_Tgt_Clab")

    SrcClab = MetaSrcClab(name="SrcClab",
                          parents=[],
                          init_props={
                              "int_arr": [123],
                              "tgt_arr": [inst_Tgt_Clab]
                          })
    assert len(SrcClab.check_state_constraints()) == 0
    inst_Src_Clab = SrcClab(name="inst_src_clab", declare_as_instance=True)
    print(inst_Src_Clab.check_state_constraints())
    assert "AtLeastThreeArrMembers" in inst_Src_Clab.check_state_constraints(
    ).keys()
def model_snippet():
    from pathlib import Path
    from multilevel_py.constraints import is_int_constraint, is_str_constraint
    from multilevel_py.core import create_clabject_prop, Clabject

    Breed = Clabject(name="Breed")
    yearReg = create_clabject_prop(n="yearReg", t=1, f=0, i_f=True, c=[is_int_constraint])
    age = create_clabject_prop(n="age", t=2, f=0, i_f=True, c=[is_int_constraint])
    Breed.define_props([yearReg, age])

    Collie = Breed(name="Collie", init_props={"yearReg": 1888})

    lassie = Collie(name="Lassie", init_props={"age": 7}, declare_as_instance=True)

    hidden_root = False
    viz_name = str(Path(__file__).stem)
    return Breed, viz_name, hidden_root
Пример #4
0
 def define_contraction_phase(clabject, prop_value):
     prop_contraction_phase = create_clabject_prop(n="contraction_phase",
                                                   t=0,
                                                   f='*',
                                                   i_f=True,
                                                   c=[is_str_constraint],
                                                   v=prop_value)
     clabject.define_props([prop_contraction_phase])
Пример #5
0
def MetaSrcClab(MetaTgtClab):
    _MetaSrcClab = Clabject(name="MetaSrcClab", parents=[], init_props={})
    snd_order_inst_of_meta_tgt = prop_constraint_is_th_order_instance_of_clabject_set_functional(
        {MetaTgtClab}, order=2)
    int_arr_prop = create_clabject_prop("int_arr",
                                        t=1,
                                        f="*",
                                        c=[],
                                        coll_desc=(2, 4, is_int_constraint))
    tgt_cls_arr_prop = create_clabject_prop(
        "tgt_arr",
        t=1,
        f="*",
        c=[],
        coll_desc=(1, 2, snd_order_inst_of_meta_tgt))
    _MetaSrcClab.define_props([int_arr_prop, tgt_cls_arr_prop])
    return _MetaSrcClab
def model_snippet():
    from pathlib import Path
    from multilevel_py.constraints import is_int_constraint, is_str_constraint, is_date_constraint
    from multilevel_py.core import create_clabject_prop, Clabject
    from datetime import date

    Breed = Clabject(name="Breed")
    year_reg = create_clabject_prop(n="year_reg",
                                    t=1,
                                    f=1,
                                    i_f=False,
                                    c=[is_int_constraint])
    coat_colour = create_clabject_prop(n="coat_colour",
                                       t=2,
                                       f='*',
                                       i_f=True,
                                       c=[is_str_constraint])
    year_of_birth = create_clabject_prop(n="year_of_birth",
                                         t=3,
                                         f='*',
                                         i_f=True,
                                         c=[is_date_constraint])
    Breed.define_props([year_reg, coat_colour, year_of_birth])

    Collie = Breed(name="Collie", init_props={"year_reg": 1888})
    SableRoughCollie = Collie(name="SableRoughCollie",
                              init_props={"coat_colour": "sable-white"})
    SableRoughCollie.year_reg = 1902

    TriColourRoughCollie = Collie(
        name="TriColourRoughCollie",
        init_props={"coat_colour": "black-edged-in-tan"})

    lassie = SableRoughCollie(
        name="Lassie",
        init_props={"year_of_birth": date(year=2002, month=2, day=20)},
        declare_as_instance=True)

    hidden_root = False
    viz_name = str(Path(__file__).stem)
    return Breed, viz_name, hidden_root
def model_snippet():
    from multilevel_py.constraints import prop_constraint_ml_instance_of_th_order_functional
    from multilevel_py.constraints import prop_constraint_optional_value_functional as optional
    from multilevel_py.constraints import is_str_constraint, is_date_constraint, \
         EmptyValue, ClabjectStateConstraint
    from multilevel_py.core import create_clabject_prop, Clabject
    from datetime import date

    Breed = Clabject(name="Breed")
    coat_colour = create_clabject_prop(n="coat_colour",
                                       t=2,
                                       f=1,
                                       i_f=True,
                                       c=[is_str_constraint])
    father = create_clabject_prop(n="father",
                                  t=3,
                                  f='*',
                                  i_f=True,
                                  i_assoc=True,
                                  c=[])
    make_noise = create_clabject_prop(n="make_noise",
                                      t=1,
                                      f='*',
                                      i_f=False,
                                      i_m=True,
                                      c=[])

    def eval_state(current_clab) -> str:
        res = ""
        if current_clab.father != EmptyValue and \
           current_clab.father.instance_of() != current_clab.instance_of():
            res = "If specified, father must be of the same breed as the current dog"
        return res

    clab_state_constr = ClabjectStateConstraint(
        name="FatherOfTheSameBreedType", eval_clabject_func=eval_state)
    father_sc = create_clabject_prop(n="father_sc",
                                     t=3,
                                     f='*',
                                     i_sc=True,
                                     c=[],
                                     d=clab_state_constr)

    Breed.define_props([make_noise, coat_colour, father, father_sc])

    def make_noise(obj) -> str:
        return "Wuff - I'm a Collie"

    Collie = Breed(name="Collie", init_props={"make_noise": make_noise})

    def make_noise(obj) -> str:
        return "Wuff I'm a Golden Retriever"

    GoldenRetriever = Breed(name="GoldenRetriever",
                            speed_adjustments={"coat_colour": -1},
                            init_props={
                                "make_noise": make_noise,
                                "coat_colour": 'light to dark golden'
                            })

    SableRoughCollie = Collie(name="SableRoughCollie",
                              init_props={"coat_colour": "sable-white"})

    def make_noise(obj) -> str:
        return "Wuff I'm called " + str(obj.__name__)

    sam = SableRoughCollie(name="Sam",
                           init_props={
                               "father": EmptyValue,
                               "make_noise": make_noise
                           },
                           declare_as_instance=True)

    lassie = SableRoughCollie(name="Lassie",
                              init_props={"father": sam},
                              declare_as_instance=True)

    derek = GoldenRetriever(name="Derek",
                            speed_adjustments={
                                "father": -1,
                                "father_sc": -1
                            },
                            init_props={"father": sam},
                            declare_as_instance=True)

    print(Collie.make_noise())  # > Wuff - I'm a Collie
    print(GoldenRetriever.make_noise())  # > Wuff I'm a Golden Retriever
    print(sam.make_noise())  # > Wuff I'm called Sam
    print(lassie.make_noise())  # > Wuff - I'm a Collie
    print(derek.make_noise())  # Wuff I'm a GoldenRetriever

    print(lassie.check_state_constraints())  # > {}
    print(derek.check_state_constraints()
          )  # > {'father_sc': 'If specified, father ...'}

    hidden_root = False
    viz_name = str(Path(__file__).stem)
    return Breed, viz_name, hidden_root
def model_snippet(sub_composite_hierarchy=False):
    from datetime import timedelta
    from math import inf
    from multilevel_py.constraints import prop_constraint_py_isinstance_functional, \
        prop_constraint_ml_instance_of_th_order_functional, \
        prop_constraint_is_th_order_instance_of_clabject_set_functional
    from multilevel_py.constraints import prop_constraint_collection_member_functional as as_member_constr
    from multilevel_py.constraints import is_str_constraint, is_timedelta_constraint
    from multilevel_py.core import Clabject, create_clabject_prop
    from multilevel_py.exceptions import ConstraintViolationException

    # Traditional Class (to be refined in the later development steps)
    class Exercise:
        def __init__(self, name: str):
            self.name = name

    TrainingPlanElement = Clabject(name="TraingPlanElement", init_props={})
    prop_part_name = create_clabject_prop(n="part_name",
                                          t=3,
                                          f='*',
                                          c=[is_str_constraint])
    prop_calc_plan_duration = create_clabject_prop(n="calc_plan_duration",
                                                   t=1,
                                                   f='*',
                                                   i_m=True)

    TrainingPlanElement.define_props([prop_part_name, prop_calc_plan_duration])

    def calc_plan_duration_recursive(obj) -> timedelta:
        planned_train_time = timedelta()  # 0
        for child_plan in obj.child_plans:
            planned_train_time += child_plan.calc_plan_duration()
        return planned_train_time

    CompositePlanElement = TrainingPlanElement(
        name="CompositePlanElement",
        init_props={"calc_plan_duration": calc_plan_duration_recursive})

    def append_childs(obj, childs):
        for child in childs:
            # [child] to check member constraints
            violations = obj.check_prop_constraints(prop_name="child_plans",
                                                    potential_value=[child],
                                                    init_only=True)
            if violations:
                raise ConstraintViolationException(
                    violated_constraints=violations)
            else:
                obj.child_plans.append(child)

    prop_child_plans = create_clabject_prop(n="child_plans",
                                            t=2,
                                            f='*',
                                            c=[],
                                            coll_desc=(1, inf, None),
                                            d=[])
    prop_append_child = create_clabject_prop(n="append_childs",
                                             t=2,
                                             f='*',
                                             i_m=True,
                                             c=[],
                                             v=append_childs)

    CompositePlanElement.define_props([prop_child_plans, prop_append_child])

    SimplePlanElement = TrainingPlanElement(
        name="SimplePlanElement", speed_adjustments={"calc_plan_duration": 1})

    is_exercise = prop_constraint_py_isinstance_functional(Exercise,
                                                           eval_on_init=True)
    prop_exercise = create_clabject_prop(n="exercise",
                                         t=2,
                                         f='*',
                                         c=[is_exercise])
    prop_exercise_duration = create_clabject_prop(n="exercise_duration",
                                                  t=2,
                                                  f='*',
                                                  c=[is_timedelta_constraint])
    SimplePlanElement.define_props([prop_exercise, prop_exercise_duration])

    # M1 Section
    def calc_train_duration(obj):
        train_duration = obj.exercise_duration + obj.rest_duration
        return train_duration

    ExerciseSetPlanElement = SimplePlanElement(
        name="ExerciseSetPlanElement",
        init_props={"calc_plan_duration": calc_train_duration})

    prop_rest_duration = create_clabject_prop(n="rest_duration",
                                              t=1,
                                              f='*',
                                              c=[is_timedelta_constraint])

    ExerciseSetPlanElement.define_props([prop_rest_duration])

    def calc_train_duration(obj):
        return obj.exercise_duration

    ExerciseIntervalPlanElement = SimplePlanElement(
        name="ExerciseIntervalPlanElement",
        init_props={"calc_plan_duration": calc_train_duration})

    if sub_composite_hierarchy:
        StressRestPatternPlanElement = CompositePlanElement(
            name="StressRestPatternPlanElement",
            init_props={},
            speed_adjustments={
                'part_name': 1,
                'child_plans': 1
            })

        stress_rest_child_constraint = prop_constraint_is_th_order_instance_of_clabject_set_functional(
            {SimplePlanElement}, order=2, eval_on_init=True)
        StressRestPatternPlanElement.add_prop_constraint(
            prop_name="child_plans",
            constraint=as_member_constr(stress_rest_child_constraint))

        IntervalTrainingPlanElement = StressRestPatternPlanElement(
            name="IntervalTrainingPlanElement", init_props={})
        interval_childs = prop_constraint_is_th_order_instance_of_clabject_set_functional(
            expected_values={ExerciseIntervalPlanElement}, order=1)
        IntervalTrainingPlanElement.add_prop_constraint(
            prop_name="child_plans",
            constraint=as_member_constr(interval_childs))

        StationTrainingPlanElement = StressRestPatternPlanElement(
            name="StationTrainingPlanElement", init_props={})
        station_childs = prop_constraint_is_th_order_instance_of_clabject_set_functional(
            expected_values={ExerciseSetPlanElement}, order=1)
        StationTrainingPlanElement.add_prop_constraint(
            prop_name="child_plans",
            constraint=as_member_constr(station_childs))

        TrainingSectionPlanElement = CompositePlanElement(
            name="TrainingSectionPlanElement", init_props={})
        section_childs = prop_constraint_is_th_order_instance_of_clabject_set_functional(
            expected_values={StressRestPatternPlanElement}, order=2)
        TrainingSectionPlanElement.add_prop_constraint(
            prop_name="child_plans",
            constraint=as_member_constr(section_childs))

        return CompositePlanElement

    else:
        return TrainingPlanElement
Пример #9
0
def model_snippet():
    from pathlib import Path
    from multilevel_py.constraints import is_str_constraint, is_float_constraint, \
        prop_constraint_ml_instance_of_th_order_functional
    from multilevel_py.core import create_clabject_prop, Clabject
    from multilevel_py.constraints import ReInitPropConstr

    # DslRoot for illustration purposes - integrating three classification hierarchies
    DslRoot = Clabject(name="DSLRoot")

    # Mass Unit Hierarchy
    symbol_prop = create_clabject_prop(n='symbol',
                                       t=2,
                                       f='*',
                                       i_f=True,
                                       c=[is_str_constraint])
    MassUnit = DslRoot(name="MassUnit")
    MassUnit.define_props([symbol_prop])

    kilogram = MassUnit(declare_as_instance=True,
                        name="Kilogram",
                        speed_adjustments={'symbol': -1},
                        init_props={'symbol': 'kg'})

    conversion_factor_prop = create_clabject_prop(n='conversion_factor',
                                                  t=1,
                                                  f='*',
                                                  i_f=True,
                                                  c=[is_float_constraint])

    is_mass_unit_constr = prop_constraint_ml_instance_of_th_order_functional(
        MassUnit, instantiation_order=1)
    base_unit_prop = create_clabject_prop(n='base_unit',
                                          t=0,
                                          f='*',
                                          i_assoc=True,
                                          c=[is_mass_unit_constr],
                                          v=kilogram)
    DerivedMassUnit = MassUnit(name="DerivedMassUnit")
    DerivedMassUnit.define_props([conversion_factor_prop, base_unit_prop])

    pound = DerivedMassUnit(name="Pound",
                            declare_as_instance=True,
                            init_props={
                                "symbol": "lb",
                                "conversion_factor": 0.45359
                            })

    # Weight Load Hierarchy
    planned_value_prop = create_clabject_prop(n='planned_value',
                                              t=1,
                                              f='*',
                                              i_f=False,
                                              c=[is_float_constraint])
    actual_value_prop = create_clabject_prop(n='actual_value',
                                             t=2,
                                             f='*',
                                             i_f=True,
                                             c=[is_float_constraint])
    mass_unit_prop = create_clabject_prop(n='mass_unit',
                                          t=0,
                                          f='*',
                                          i_f=False,
                                          i_assoc=True,
                                          v=MassUnit)
    WeightLoad = DslRoot(name="WeightLoad")
    WeightLoad.define_props(
        [planned_value_prop, actual_value_prop, mass_unit_prop])

    is_fst_or_snd_order_mass_unit_instance = \
    prop_constraint_ml_instance_of_th_order_functional(
        MassUnit, instantiation_order=(1, 2))
    re_init_constr = ReInitPropConstr(
        del_constr=[], add_constr=[is_fst_or_snd_order_mass_unit_instance])
    WeightLoad.require_re_init_on_next_step(prop_name="mass_unit",
                                            re_init_prop_constr=re_init_constr)

    ParameterisedWeightLoad = WeightLoad(name='ParameterisedWeightLoad',
                                         init_props={
                                             'planned_value': 180.0,
                                             'mass_unit': pound
                                         })

    realisedWeightLoad = ParameterisedWeightLoad(
        declare_as_instance=True,
        name="RealisedWeightLoad",
        init_props={"actual_value": 182.5})

    # Deadlift Hierarchy
    weight_load_prop = create_clabject_prop(n='weight_load',
                                            t=0,
                                            f='*',
                                            i_f=False,
                                            i_assoc=True,
                                            v=WeightLoad)
    Deadlift = DslRoot(name="Deadlift")
    Deadlift.define_props([weight_load_prop])

    is_weight_load_instance = prop_constraint_ml_instance_of_th_order_functional(
        WeightLoad, instantiation_order=1)
    re_init_constr = ReInitPropConstr(del_constr=[],
                                      add_constr=[is_weight_load_instance])
    Deadlift.require_re_init_on_next_step(prop_name="weight_load",
                                          re_init_prop_constr=re_init_constr)
    ParameterisedDeadlift = Deadlift(
        name="ParameterisedDeadlift",
        init_props={'weight_load': ParameterisedWeightLoad})

    is_param_weight_load_instance = prop_constraint_ml_instance_of_th_order_functional(
        ParameterisedWeightLoad, instantiation_order=1)
    re_init_constr = ReInitPropConstr(
        del_constr=[is_weight_load_instance],
        add_constr=[is_param_weight_load_instance])
    ParameterisedDeadlift.require_re_init_on_next_step(
        prop_name="weight_load", re_init_prop_constr=re_init_constr)
    realisedDeadlift = ParameterisedDeadlift(
        declare_as_instance=True,
        name="RealisedDeadlift",
        init_props={"weight_load": realisedWeightLoad})

    hidden_root = False
    viz_name = str(Path(__file__).stem)
    return DslRoot, viz_name, hidden_root
Пример #10
0
from multilevel_py.constraints import is_str_constraint
from multilevel_py.clabject_prop import CollectionDescription
from multilevel_py.core import create_clabject_prop, Clabject, MetaClabject

Animal = Clabject(name="Animal")

# Declare Properties to be instantiated down the classification hierarchy
is_animal = create_clabject_prop(n="is_animal", t=0, f="*", v=True)
species = create_clabject_prop(n="species", t=1, f='*', c=[is_str_constraint])
name = create_clabject_prop(n="name", t=2, f='*', c=[is_str_constraint])
traits = create_clabject_prop(n="traits", t=2, f='*', coll_desc=(1,3, is_str_constraint))
Animal.define_props([is_animal, species, name, traits])

def create_tom(animal_clabject):
    """Create a 'clabject' representing the cartoon character Tom

    Parameters
    ----------
    animal_clabject : multilevel_py.core.MetaClabject
        the Animal clabject, i.e. the top of the classification hierarchy defined above

    Returns
    -------
    multilevel_py.core.MetaClabject
        the tom clabject (declared as instance)
    """
    Cat = animal_clabject(name="Cat", init_props={"species": "cat"})
    return Cat(name="tom", init_props={"name": "tom", "traits": ["lazy", "food loving"]}, declare_as_instance=True)

def create_jerry(animal_clabject):
    """Create a 'clabject' representing the cartoon character Jerry
Пример #11
0
def model_snippet():
    from pathlib import Path
    from multilevel_py.constraints import is_str_constraint
    from multilevel_py.core import create_clabject_prop, Clabject

    Exercise = Clabject(name="Exercise")
    prop_exercise_name = create_clabject_prop(n="exercise_name",
                                              t=1,
                                              f='*',
                                              i_f=True,
                                              c=[is_str_constraint])
    Exercise.define_props([prop_exercise_name])

    KiteSurfing = Exercise(name="KiteSurfing",
                           init_props={"exercise_name": "KiteSurfing"})

    StrengthExercise = Exercise(name="StrengthExercise",
                                speed_adjustments={"exercise_name": 1})
    prop_motor_kind = create_clabject_prop(n="motor_kind",
                                           t=0,
                                           f='*',
                                           i_f=True,
                                           c=[is_str_constraint],
                                           v="strength")
    StrengthExercise.define_props([prop_motor_kind])

    def define_contraction_form(clabject, prop_value):
        prop_contraction_form = create_clabject_prop(n="contraction_form",
                                                     t=0,
                                                     f='*',
                                                     i_f=True,
                                                     c=[is_str_constraint],
                                                     v=prop_value)
        clabject.define_props([prop_contraction_form])

    StaticStrengthExercise = StrengthExercise(
        name="StaticStrengthExercise", speed_adjustments={"exercise_name": 1})
    define_contraction_form(StaticStrengthExercise, "static")

    DynamicStrengthExercise = StrengthExercise(
        name="DynamicStrengthExercise", speed_adjustments={"exercise_name": 1})
    define_contraction_form(DynamicStrengthExercise, "dynamic")

    def define_contraction_phase(clabject, prop_value):
        prop_contraction_phase = create_clabject_prop(n="contraction_phase",
                                                      t=0,
                                                      f='*',
                                                      i_f=True,
                                                      c=[is_str_constraint],
                                                      v=prop_value)
        clabject.define_props([prop_contraction_phase])

    ConcentricStrengthExercise = DynamicStrengthExercise(
        name="ConcentricStrengthExercise",
        speed_adjustments={"exercise_name": 1})
    define_contraction_phase(ConcentricStrengthExercise, "concentric")

    ExcentricStrengthExercise = DynamicStrengthExercise(
        name="ExcentricStrengthExercise",
        speed_adjustments={"exercise_name": 1})
    define_contraction_phase(ExcentricStrengthExercise, "excentric")

    Deadlift = DynamicStrengthExercise(
        name="Deadlift", init_props={"exercise_name": "Deadlift"})

    ExcentricBenchpress = ExcentricStrengthExercise(
        name="ExcentricBenchpress",
        init_props={"exercise_name": "ExcentricBenchpress"})

    ConcentricDeadlift = ConcentricStrengthExercise(
        name="ConcentricDeadlift",
        init_props={"exercise_name": "ConcentricDeadlift"})

    hidden_root = False
    viz_name = str(Path(__file__).stem)
    return Exercise, viz_name, hidden_root