Exemplo n.º 1
0
 def add_simple_effect(self,
                       predicate: AtomicFormula,
                       time_spec: TimeSpec = TimeSpec.AT_START,
                       is_delete: bool = False):
     """
     Adds a propositional effect.
     If the operator already has a non-conjunctive effect then the new and existing
     effects will be wrapped together within a new conjunctive effect.
     """
     effect = EffectNegative(predicate) if is_delete else EffectSimple(
         predicate)
     if self.durative: effect = TimedEffect(time_spec, effect)
     if self.effect.effect_type == EffectType.CONJUNCTION:
         self.effect: EffectConjunction
         self.effect.effects.append(effect)
     elif self.effect.effect_type == EffectType.EMPTY:
         self.effect = effect
     else:
         self.effect = EffectConjunction(effects=[self.effect, effect])
Exemplo n.º 2
0
 def add_assign_effect(self,
                       function: AtomicFormula,
                       time_spec: TimeSpec = TimeSpec.AT_START,
                       assign_type: AssignmentType = AssignmentType.ASSIGN,
                       value: float = 1.0):
     """
     Adds a numeric effect.
     If the operator already has a non-conjunctive effect then the new and existing
     effects will be wrapped together within a new conjunctive effect.
     """
     value_expr = ExprComposite(
         [ExprBase(expr_type=ExprBase.ExprType.CONSTANT, constant=value)])
     effect = Assignment(assign_type, function, value_expr)
     if self.durative: effect = TimedEffect(time_spec, effect)
     if self.effect.effect_type == EffectType.CONJUNCTION:
         self.effect: EffectConjunction
         self.effect.effects.append(effect)
     elif self.effect.effect_type == EffectType.EMPTY:
         self.effect = effect
     else:
         self.effect = EffectConjunction(effects=[self.effect, effect])
Exemplo n.º 3
0
 def visitDurative_action_effect_conjunction(self, ctx: pddl22Parser.Durative_action_effect_conjunctionContext):
     effects = []
     for effect in ctx.durative_action_effect():
         effects.append(self.visit(effect))
     return EffectConjunction(effects)
Exemplo n.º 4
0
class Operator:
    """ 
    A class used to represent an operator in the domain.
    """
    def __init__(
        self,
        # header
        formula: AtomicFormula,
        durative: bool,
        duration: Duration = None,
        condition: GoalDescriptor = None,
        effect: Effect = None,
    ) -> None:
        self.formula: AtomicFormula = formula
        self.durative: bool = durative
        self.duration: Duration = duration if duration else Duration()
        self.condition: GoalDescriptor = condition if condition else GoalDescriptor(
        )
        self.effect: Effect = effect if effect else Effect()

    # ======= #
    # Setters #
    # ======= #

    def set_constant_duration(self, duration: float):
        lhs = ExprComposite([
            ExprBase(expr_type=ExprBase.ExprType.SPECIAL,
                     special_type=ExprBase.SpecialType.DURATION)
        ])
        rhs = ExprComposite([
            ExprBase(expr_type=ExprBase.ExprType.CONSTANT, constant=duration)
        ])
        self.duration = DurationInequality(
            Inequality(comparison_type=Inequality.ComparisonType.EQUALS,
                       lhs=lhs,
                       rhs=rhs))

    def add_simple_condition_from_str(self,
                                      name: str,
                                      parameters: dict[str, str] = {},
                                      constants: dict[str, str] = {},
                                      time_spec: TimeSpec = TimeSpec.AT_START):
        """
        Adds a propositional condition from string using AtomicFormula.from_string()
        param name: the name of the predicate to add.
        param parameters: dictionary mapping label to type.
        param constants: dictionary mapping label to constant value.
        param time_spec: timing of condition, if durative action.
        """
        self.add_simple_condition(
            AtomicFormula.from_string(name, parameters, constants), time_spec)

    def add_simple_condition(self,
                             predicate: AtomicFormula,
                             time_spec: TimeSpec = TimeSpec.AT_START):
        """
        Adds a propositional condition.
        If the operator already has a non-conjunctive condition then the new and existing
        conditions will be wrapped together within a new conjunctive condition.
        """
        condition = GoalSimple(predicate)
        if self.durative: condition = TimedGoal(time_spec, condition)
        if self.condition.goal_type == GoalType.CONJUNCTION:
            self.condition: GoalConjunction
            self.condition.goals.append(condition)
        elif self.condition.goal_type == GoalType.EMPTY:
            self.condition = condition
        else:
            self.condition = GoalConjunction(goals=[self.condition, condition])

    def add_simple_effect_from_str(self,
                                   name: str,
                                   parameters: dict[str, str] = {},
                                   constants: dict[str, str] = {},
                                   time_spec: TimeSpec = TimeSpec.AT_START,
                                   is_delete: bool = False):
        """
        Adds a propositional effect from string using AtomicFormula.from_string()
        param name: the name of the predicate to add.
        param parameters: dictionary mapping label to type.
        param constants: dictionary mapping label to constant value.
        param time_spec: timing of effect, if durative action.
        param is_delete: True if the effect is a delete effect.
        """
        self.add_simple_effect(
            AtomicFormula.from_string(name, parameters, constants), time_spec,
            is_delete)

    def add_simple_effect(self,
                          predicate: AtomicFormula,
                          time_spec: TimeSpec = TimeSpec.AT_START,
                          is_delete: bool = False):
        """
        Adds a propositional effect.
        If the operator already has a non-conjunctive effect then the new and existing
        effects will be wrapped together within a new conjunctive effect.
        """
        effect = EffectNegative(predicate) if is_delete else EffectSimple(
            predicate)
        if self.durative: effect = TimedEffect(time_spec, effect)
        if self.effect.effect_type == EffectType.CONJUNCTION:
            self.effect: EffectConjunction
            self.effect.effects.append(effect)
        elif self.effect.effect_type == EffectType.EMPTY:
            self.effect = effect
        else:
            self.effect = EffectConjunction(effects=[self.effect, effect])

    def add_assign_effect_from_str(
            self,
            name: str,
            parameters: dict[str, str] = {},
            constants: dict[str, str] = {},
            time_spec: TimeSpec = TimeSpec.AT_START,
            assign_type: AssignmentType = AssignmentType.ASSIGN,
            value: float = 1.0):
        """
        Adds a numeric effect from string using AtomicFormula.from_string()
        param name: the name of the predicate to add.
        param parameters: dictionary mapping label to type.
        param constants: dictionary mapping label to constant value.
        param time_spec: timing of effect, if durative action.
        param assign_type: the type of numeric assignment (assign, increase, decrease, etc)
        param value: The amount to be applied.
        """
        self.add_assign_effect(
            AtomicFormula.from_string(name, parameters, constants), time_spec,
            assign_type, value)

    def add_assign_effect(self,
                          function: AtomicFormula,
                          time_spec: TimeSpec = TimeSpec.AT_START,
                          assign_type: AssignmentType = AssignmentType.ASSIGN,
                          value: float = 1.0):
        """
        Adds a numeric effect.
        If the operator already has a non-conjunctive effect then the new and existing
        effects will be wrapped together within a new conjunctive effect.
        """
        value_expr = ExprComposite(
            [ExprBase(expr_type=ExprBase.ExprType.CONSTANT, constant=value)])
        effect = Assignment(assign_type, function, value_expr)
        if self.durative: effect = TimedEffect(time_spec, effect)
        if self.effect.effect_type == EffectType.CONJUNCTION:
            self.effect: EffectConjunction
            self.effect.effects.append(effect)
        elif self.effect.effect_type == EffectType.EMPTY:
            self.effect = effect
        else:
            self.effect = EffectConjunction(effects=[self.effect, effect])

    # ======== #
    # Printing #
    # ======== #

    def __str__(self) -> str:
        # TODO checking for empty parameters and conditions
        return ("(durative-action " if self.durative else "(action ") \
                + self.formula.name + "\n" \
                + "  :parameters (" + self.formula.print_pddl(include_types=True).partition(' ')[2][:-1] + ")\n" \
                + ("  :duration " + str(self.duration) + "\n" if self.durative else "") \
                + ("  :condition " if self.durative else "  :precondition ") \
                + str(self.condition) + "\n" \
                + "  :effect " \
                + str(self.effect) + "\n" \
                + ")"

    def print_pddl(self) -> str:
        return self.formula.print_pddl(include_types=False)

    # ========= #
    # Grounding #
    # ========= #

    def bind_parameters(self, parameters: list[TypedParameter]) -> 'Operator':
        """
        parameters: list of TypedParameter whose type and label must match the type and label of the operator.
        returns a copy of the operator whose conditions and effects have been grounded with the given values.
        """
        return Operator(self.formula.bind_parameters(parameters),
                        durative=self.durative,
                        duration=self.duration.bind_parameters(parameters),
                        condition=self.condition.bind_parameters(parameters),
                        effect=self.effect.bind_parameters(parameters))
Exemplo n.º 5
0
 def visitConditional_effect_conjunction(self, ctx: pddl22Parser.Conditional_effect_conjunctionContext):
     effects = []
     for effect in ctx.p_effect():
         effects.append(self.visit(effect))
     return EffectConjunction(effects)