Ejemplo n.º 1
0
def split_rule(rule, name_generator):
    important_conditions, trivial_conditions = [], []
    for cond in rule.conditions:
        for arg in cond.args:
            if arg[0] == "?":
                important_conditions.append(cond)
                break
        else:
            trivial_conditions.append(cond)

    # important_conditions = [cond for cond in rule.conditions if cond.args]
    # trivial_conditions = [cond for cond in rule.conditions if not cond.args]

    components = get_connected_conditions(important_conditions)
    if len(components) == 1 and not trivial_conditions:
        return split_into_binary_rules(rule, name_generator)

    projected_rules = [
        project_rule(rule, conditions, name_generator)
        for conditions in components
    ]
    result = []
    for proj_rule in projected_rules:
        result += split_into_binary_rules(proj_rule, name_generator)

    conditions = ([proj_rule.effect
                   for proj_rule in projected_rules] + trivial_conditions)
    combining_rule = Rule(conditions, rule.effect)
    if len(conditions) >= 2:
        combining_rule.type = "product"
    else:
        combining_rule.type = "project"
    result.append(combining_rule)
    return result
Ejemplo n.º 2
0
def split_rule(rule, name_generator):
    important_conditions, trivial_conditions = [], []
    for cond in rule.conditions:
        for arg in cond.args:
            if arg[0] == "?":
                important_conditions.append(cond)
                break
        else:
            trivial_conditions.append(cond)

    # important_conditions = [cond for cond in rule.conditions if cond.args]
    # trivial_conditions = [cond for cond in rule.conditions if not cond.args]

    components = get_connected_conditions(important_conditions)
    if len(components) == 1 and not trivial_conditions:
        return split_into_binary_rules(rule, name_generator)

    projected_rules = [project_rule(rule, conditions, name_generator)
                       for conditions in components]
    result = []
    for proj_rule in projected_rules:
        result += split_into_binary_rules(proj_rule, name_generator)

    conditions = [proj_rule.effect for proj_rule in projected_rules] + \
                 trivial_conditions
    combining_rule = Rule(conditions, rule.effect)
    if len(conditions) >= 2:
        combining_rule.type = "product"
    else:
        combining_rule.type = "project"
    result.append(combining_rule)
    return result
Ejemplo n.º 3
0
def split_rule(rule, name_generator):
    # Capture original rule weight
    weight = rule.weight

    important_conditions, trivial_conditions = [], []
    for cond in rule.conditions:
        for arg in cond.args:
            if arg[0] == "?":
                important_conditions.append(cond)
                break
        else:
            trivial_conditions.append(cond)

    # important_conditions = [cond for cond in rule.conditions if cond.args]
    # trivial_conditions = [cond for cond in rule.conditions if not cond.args]

    components = get_connected_conditions(important_conditions)
    if len(components) == 1 and not trivial_conditions:
        return split_into_binary_rules(rule, name_generator)

    projected_rules = [
        project_rule(rule, conditions, name_generator)
        for conditions in components
    ]
    result = []
    for proj_rule in projected_rules:
        result += split_into_binary_rules(proj_rule, name_generator)

    conditions = ([proj_rule.effect
                   for proj_rule in projected_rules] + trivial_conditions)
    combining_rule = Rule(conditions, rule.effect)
    if len(conditions) >= 2:
        combining_rule.type = "product"
    else:
        combining_rule.type = "project"
    result.append(combining_rule)

    # Last rule is always the "root" rule. It weight should be updated
    # TODO Make this more reliable
    result[-1].weight = weight

    return result
Ejemplo n.º 4
0
def test_normalization():
    prog = PrologProgram()
    prog.add_fact(pddl.Atom("at", ["foo", "bar"]))
    prog.add_fact(pddl.Atom("truck", ["bollerwagen"]))
    prog.add_fact(pddl.Atom("truck", ["segway"]))
    prog.add_rule(Rule([pddl.Atom("truck", ["?X"])], pddl.Atom("at", ["?X", "?Y"])))
    prog.add_rule(Rule([pddl.Atom("truck", ["X"]), pddl.Atom("location", ["?Y"])],
                  pddl.Atom("at", ["?X", "?Y"])))
    prog.add_rule(Rule([pddl.Atom("truck", ["?X"]), pddl.Atom("location", ["?Y"])],
                  pddl.Atom("at", ["?X", "?X"])))
    prog.add_rule(Rule([pddl.Atom("p", ["?Y", "?Z", "?Y", "?Z"])],
                  pddl.Atom("q", ["?Y", "?Y"])))
    prog.add_rule(Rule([], pddl.Atom("foo", [])))
    prog.add_rule(Rule([], pddl.Atom("bar", ["X"])))
    prog.normalize()
    output = StringIO()
    prog.dump(file=output)
    sorted_output = "\n".join(sorted(output.getvalue().splitlines()))
    assert sorted_output == """\
Ejemplo n.º 5
0
def project_rule(rule, conditions, name_generator):
    predicate = next(name_generator)
    effect_variables = set(rule.effect.args) & get_variables(conditions)
    effect = pddl.Atom(predicate, sorted(effect_variables))
    projected_rule = Rule(conditions, effect)
    return projected_rule