def parse_effect(alist, type_dict, predicate_dict): # if DEBUG: print ("parsing effect %s" % [alist]) tag = alist[0] if tag == "and": return pddl.ConjunctiveEffect([ parse_effect(eff, type_dict, predicate_dict) for eff in alist[1:] ]) elif tag == "forall": assert len(alist) == 3 parameters = parse_typed_list(alist[1]) effect = parse_effect(alist[2], type_dict, predicate_dict) return pddl.UniversalEffect(parameters, effect) elif tag == "when": assert len(alist) == 3 condition = parse_condition(alist[1], type_dict, predicate_dict) effect = parse_effect(alist[2], type_dict, predicate_dict) return pddl.ConditionalEffect(condition, effect) elif tag in ("scale-up", "scale-down", "increase", "decrease"): return pddl.NumericEffect(parse_assignment(alist)) elif tag == "assign": symbol = alist[1] if isinstance(symbol, list): symbol = symbol[0] return pddl.NumericEffect(parse_assignment(alist)) else: # We pass in {} instead of type_dict here because types must # be static predicates, so cannot be the target of an effect. return pddl.SimpleEffect(parse_literal(alist, {}, predicate_dict))
def parse_effect(alist, type_dict, predicate_dict): tag = alist[0] if tag == "and": return pddl.ConjunctiveEffect([ parse_effect(eff, type_dict, predicate_dict) for eff in alist[1:] ]) elif tag == "forall": assert len(alist) == 3 parameters = parse_typed_list(alist[1]) effect = parse_effect(alist[2], type_dict, predicate_dict) return pddl.UniversalEffect(parameters, effect) elif tag == "when": assert len(alist) == 3 condition = parse_condition(alist[1], type_dict, predicate_dict) effect = parse_effect(alist[2], type_dict, predicate_dict) return pddl.ConditionalEffect(condition, effect) elif tag == "increase": assert len(alist) == 3 assert alist[1] == ['total-cost'] assignment = parse_assignment(alist) return pddl.CostEffect(assignment) else: # We pass in {} instead of type_dict here because types must # be static predicates, so cannot be the target of an effect. return pddl.SimpleEffect(parse_literal(alist, {}, predicate_dict))
def parse_effect(alist, type_dict, predicate_dict): tag = alist[0] if tag == "and": return [ pddl.ConjunctiveEffect(conjuncts) for conjuncts in cartesian_product(*[ parse_effect(eff, type_dict, predicate_dict) for eff in alist[1:] ]) ] elif tag == "forall": assert len(alist) == 3 parameters = parse_typed_list(alist[1]) effects = parse_effect(alist[2], type_dict, predicate_dict) assert 1 == len(effects), \ "Error: Cannot embed non-determinism inside of a forall (for now)." return [pddl.UniversalEffect(parameters, effect) for effect in effects] elif tag == "when": assert len(alist) == 3 condition = parse_condition(alist[1], type_dict, predicate_dict) effects = parse_effect(alist[2], type_dict, predicate_dict) assert all([eff.probability == 1 for eff in effects]), \ "Error: (probabilistic ...) within (when ...) is currently not supported" return [ pddl.ConditionalEffect(condition, effect) for effect in effects ] elif tag == "increase": assert len(alist) == 3 assert alist[1] == ['total-cost'] assignment = parse_assignment(alist) return [pddl.CostEffect(assignment)] elif tag == "probabilistic": # Generate effects for each outcome and then set their probability appropriately assert (len(alist)-1) % 2 == 0,\ "Each probabilistic outcome must have an associated probability" outcome_pairs = [(alist[i], alist[i + 1]) for i in range(1, len(alist), 2)] remaining_probability = fractions.Fraction(1) outcomes = [] for pair in outcome_pairs: effects = parse_effect(pair[1], type_dict, predicate_dict) for eff in effects: # Apply the base probability in the pair to this individual effect eff.probability *= fractions.Fraction( pair[0]).limit_denominator() remaining_probability -= eff.probability outcomes.append(eff) remaining_probability = remaining_probability.limit_denominator() if (remaining_probability > 0): remaining_eff = pddl.SimpleEffect(None) remaining_eff.probability = remaining_probability outcomes.append(remaining_eff) return outcomes else: # We pass in {} instead of type_dict here because types must # be static predicates, so cannot be the target of an effect. return [pddl.SimpleEffect(parse_literal(alist, {}, predicate_dict))]