Exemple #1
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 def p_typed_variables_lst(self, p):
     """typed_variables_lst : variables_lst HYPHEN type typed_variables_lst
                            | variables_lst HYPHEN type"""
     if len(p) == 4:
         p[0] = [Term.variable(name, p[3]) for name in p[1]]
     else:
         p[0] = [Term.variable(name, p[3]) for name in p[1]] + p[4]
Exemple #2
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 def test_automaton_compute_parameters_2(self):
     """Test that the computation of parameters and object mapping are correct on blocksworld."""
     pddl_domain = self.parser(
         open(
             str(
                 Path(
                     TEST_ROOT_DIR,
                     "data",
                     "pddl-domains",
                     "blocksworld-ipc08",
                     "domain.pddl",
                 ))).read())
     grounded_symbols = [
         Symbol("on", ["b1", "b2"]),
         Symbol("on", ["b2", "b5"]),
         Symbol("emptyhand"),
     ]
     actual_params, actual_obj_map = self.aut_obj.compute_parameters(
         pddl_domain.predicates, grounded_symbols)
     expected_params = [
         Term.variable("?b1-00", "block"),
         Term.variable("?b2-01", "block"),
         Term.variable("?b2-02", "block"),
     ]
     expected_objmap = {
         "b1": ["?b1-00", "block"],
         "b2": ["?b2-01", "block"],
         "b5": ["?b2-02", "block"],
     }
     assert actual_params == expected_params and actual_obj_map == expected_objmap
Exemple #3
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 def test_automaton_compute_parameters_1(self):
     """Test that the computation of parameters and object mapping are correct on triangle-tireworld."""
     pddl_domain = self.parser(
         open(
             str(
                 Path(
                     TEST_ROOT_DIR,
                     "data",
                     "pddl-domains",
                     "triangle-tireworld",
                     "domain.pddl",
                 ))).read())
     grounded_symbols = [
         Symbol("vehicleat", ["l31"]),
         Symbol("vehicleat", ["l12"]),
         Symbol("vehicleat", ["l22"]),
     ]
     actual_params, actual_obj_map = self.aut_obj.compute_parameters(
         pddl_domain.predicates, grounded_symbols)
     expected_params = [
         Term.variable("?loc-00", "location"),
         Term.variable("?loc-01", "location"),
         Term.variable("?loc-02", "location"),
     ]
     expected_objmap = {
         "l31": ["?loc-00", "location"],
         "l12": ["?loc-01", "location"],
         "l22": ["?loc-02", "location"],
     }
     assert actual_params == expected_params and actual_obj_map == expected_objmap
 def test_domain_predicates(self):
     """Test that the domain predicates are correct."""
     assert self.pddl_predicates == [
         Predicate("vehicleat", [Term.variable("?loc", "location")]),
         Predicate("spare-in", [Term.variable("?loc", "location")]),
         Predicate(
             "road",
             [
                 Term.variable("?from", "location"),
                 Term.variable("?to", "location")
             ],
         ),
         Predicate("not-flattire"),
     ]
    def test_domain_operators(self):
        """Test that the domain operators are correct."""
        op1 = Action(
            name="move-car",
            parameters=[
                Term.variable("?from", "location"),
                Term.variable("?to", "location"),
            ],
            preconditions=FormulaAnd([
                Literal.positive(Predicate("vehicleat", ["?from"])),
                Literal.positive(Predicate("road", ["?from", "?to"])),
                Literal.positive(Predicate("not-flattire")),
            ]),
            effects=FormulaAnd([
                FormulaOneOf([
                    FormulaAnd([
                        Literal.positive(Predicate("vehicleat", ["?to"])),
                        Literal.negative(Predicate("vehicleat", ["?from"])),
                    ]),
                    FormulaAnd([
                        Literal.positive(Predicate("vehicleat", ["?to"])),
                        Literal.negative(Predicate("vehicleat", ["?from"])),
                        Literal.negative(Predicate("not-flattire")),
                    ]),
                ]),
            ]),
        )
        op2 = Action(
            name="changetire",
            parameters=[
                Term.variable("?loc", "location"),
            ],
            preconditions=FormulaAnd([
                Literal.positive(Predicate("spare-in", ["?loc"])),
                Literal.positive(Predicate("vehicleat", ["?loc"])),
            ]),
            effects=FormulaAnd([
                Literal.negative(Predicate("spare-in", ["?loc"])),
                Literal.positive(Predicate("not-flattire")),
            ]),
        )

        assert self.pddl_operators == [
            op1,
            op2,
        ]
Exemple #6
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 def compute_parameters(self, domain_predicates, grounded_symbols):
     """Compute parameters."""
     objs_set = set()
     obj_mapping = {}
     parameters = []
     counter = 0
     for symbol in grounded_symbols:
         if symbol.objects:
             i = 0
             for obj in symbol.objects:
                 if obj not in objs_set:
                     objs_set.add(obj)
                     (name_var, type_) = self.compute_type(
                         domain_predicates, symbol.name, i, counter
                     )
                     obj_mapping[obj] = [name_var, type_]
                     parameters.append(Term.variable(name_var, type_))
                     counter += 1
                 else:
                     pass
                 i += 1
     return parameters, obj_mapping
 def test_domain_predicates(self):
     """Test that the domain predicates are correct."""
     assert self.pddl_predicates == [
         Predicate("up"),
         Predicate("position", [Term.variable("?p", "location")]),
         Predicate(
             "next-fwd",
             [
                 Term.variable("?p1", "location"),
                 Term.variable("?p2", "location")
             ],
         ),
         Predicate(
             "next-bwd",
             [
                 Term.variable("?p1", "location"),
                 Term.variable("?p2", "location")
             ],
         ),
         Predicate("ladder-at", [Term.variable("?p", "location")]),
         Predicate("broken-leg"),
     ]
Exemple #8
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 def test_automaton_create_trans_op_2(self):
     """Test that the created trans operator is correct."""
     pddl_domain = self.parser(
         open(
             str(
                 Path(
                     TEST_ROOT_DIR,
                     "data",
                     "pddl-domains",
                     "blocksworld-ipc08",
                     "domain.pddl",
                 ))).read())
     grounded_symbols = [
         Symbol("emptyhand"),
         Symbol("on", ["b", "e"]),
         Symbol("ontable", ["e"]),
     ]
     actual_trans_ops, actual_params = self.aut_obj.create_operators_trans(
         pddl_domain.predicates, grounded_symbols)
     expected_trans_ops = [
         Action(
             name="trans-0",
             parameters=[
                 Term.variable("?b1-00", "block"),
                 Term.variable("?b2-01", "block"),
             ],
             preconditions=FormulaAnd([
                 FormulaOr([
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q1",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.negative(Predicate("emptyhand")),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q1",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.negative(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q1",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.positive(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.negative(Predicate(
                             "ontable",
                             ["?b2-01"],
                         )),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q2",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.negative(Predicate("emptyhand")),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q2",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.negative(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q2",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.positive(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.negative(Predicate(
                             "ontable",
                             ["?b2-01"],
                         )),
                     ]),
                 ]),
                 Literal.negative(Predicate("turnDomain")),
             ]),
             effects=FormulaAnd([
                 Literal.positive(Predicate(
                     "q2",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.negative(Predicate(
                     "q1",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.negative(Predicate(
                     "q3",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.positive(Predicate("turnDomain")),
             ]),
         ),
         Action(
             name="trans-1",
             parameters=[
                 Term.variable("?b1-00", "block"),
                 Term.variable("?b2-01", "block"),
             ],
             preconditions=FormulaAnd([
                 FormulaOr([
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q1",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.positive(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate(
                             "ontable",
                             ["?b2-01"],
                         )),
                     ]),
                     FormulaAnd([
                         Literal.positive(
                             Predicate(
                                 "q2",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate("emptyhand")),
                         Literal.positive(
                             Predicate(
                                 "on",
                                 ["?b1-00", "?b2-01"],
                             )),
                         Literal.positive(Predicate(
                             "ontable",
                             ["?b2-01"],
                         )),
                     ]),
                     Literal.positive(
                         Predicate(
                             "q3",
                             ["?b1-00", "?b2-01"],
                         )),
                 ]),
                 Literal.negative(Predicate("turnDomain")),
             ]),
             effects=FormulaAnd([
                 Literal.positive(Predicate(
                     "q3",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.negative(Predicate(
                     "q1",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.negative(Predicate(
                     "q2",
                     ["?b1-00", "?b2-01"],
                 )),
                 Literal.positive(Predicate("turnDomain")),
             ]),
         ),
     ]
     expected_params = [
         Term.variable("?b1-00", "block"),
         Term.variable("?b2-01", "block"),
     ]
     assert actual_trans_ops == expected_trans_ops
     assert actual_params == expected_params
Exemple #9
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 def test_automaton_create_trans_op(self):
     """Test that the created trans operator is correct."""
     pddl_domain = self.parser(
         open(
             str(
                 Path(
                     TEST_ROOT_DIR,
                     "data",
                     "pddl-domains",
                     "triangle-tireworld",
                     "domain.pddl",
                 ))).read())
     grounded_symbols = [Symbol("vehicleat", ["l31"])]
     actual_trans_ops, actual_params = self.aut_obj.create_operators_trans(
         pddl_domain.predicates, grounded_symbols)
     expected_trans_ops = [
         Action(
             name="trans-0",
             parameters=[Term.variable("?loc-00", "location")],
             preconditions=FormulaAnd([
                 FormulaOr([
                     FormulaAnd([
                         Literal.positive(Predicate("q1", ["?loc-00"])),
                         Literal.negative(
                             Predicate("vehicleat", ["?loc-00"])),
                     ]),
                     FormulaAnd([
                         Literal.positive(Predicate("q2", ["?loc-00"])),
                         Literal.negative(
                             Predicate("vehicleat", ["?loc-00"])),
                     ]),
                 ]),
                 Literal.negative(Predicate("turnDomain")),
             ]),
             effects=FormulaAnd([
                 Literal.positive(Predicate("q2", ["?loc-00"])),
                 Literal.negative(Predicate("q1", ["?loc-00"])),
                 Literal.negative(Predicate("q3", ["?loc-00"])),
                 Literal.positive(Predicate("turnDomain")),
             ]),
         ),
         Action(
             name="trans-1",
             parameters=[Term.variable("?loc-00", "location")],
             preconditions=FormulaAnd([
                 FormulaOr([
                     FormulaAnd([
                         Literal.positive(Predicate("q1", ["?loc-00"])),
                         Literal.positive(
                             Predicate("vehicleat", ["?loc-00"])),
                     ]),
                     FormulaAnd([
                         Literal.positive(Predicate("q2", ["?loc-00"])),
                         Literal.positive(
                             Predicate("vehicleat", ["?loc-00"])),
                     ]),
                     Literal.positive(Predicate("q3", ["?loc-00"])),
                 ]),
                 Literal.negative(Predicate("turnDomain")),
             ]),
             effects=FormulaAnd([
                 Literal.positive(Predicate("q3", ["?loc-00"])),
                 Literal.negative(Predicate("q1", ["?loc-00"])),
                 Literal.negative(Predicate("q2", ["?loc-00"])),
                 Literal.positive(Predicate("turnDomain")),
             ]),
         ),
     ]
     expected_params = [Term.variable("?loc-00", "location")]
     assert actual_trans_ops == expected_trans_ops
     assert actual_params == expected_params
 def test_domain_operators(self):
     """Test that the domain operators are correct."""
     op1 = Action(
         name="walk-on-beam",
         parameters=[
             Term.variable("?from", "location"),
             Term.variable("?to", "location"),
         ],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.positive(Predicate("up")),
             Literal.positive(Predicate("position", ["?from"])),
             Literal.positive(Predicate("next-fwd", ["?from", "?to"])),
         ]),
         effects=FormulaOneOf([
             FormulaAnd([
                 Literal.positive(Predicate("position", ["?to"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("position", ["?to"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
         ]),
     )
     op2 = Action(
         name="walk-left",
         parameters=[
             Term.variable("?from", "location"),
             Term.variable("?to", "location"),
         ],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.negative(Predicate("up")),
             Literal.positive(Predicate("position", ["?from"])),
             Literal.positive(Predicate("next-bwd", ["?from", "?to"])),
         ]),
         effects=FormulaAnd([
             Literal.positive(Predicate("position", ["?to"])),
             Literal.negative(Predicate("position", ["?from"])),
         ]),
     )
     op3 = Action(
         name="walk-right",
         parameters=[
             Term.variable("?from", "location"),
             Term.variable("?to", "location"),
         ],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.negative(Predicate("up")),
             Literal.positive(Predicate("position", ["?from"])),
             Literal.positive(Predicate("next-fwd", ["?from", "?to"])),
         ]),
         effects=FormulaAnd([
             Literal.positive(Predicate("position", ["?to"])),
             Literal.negative(Predicate("position", ["?from"])),
         ]),
     )
     op4 = Action(
         name="climb",
         parameters=[Term.variable("?p", "location")],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.negative(Predicate("up")),
             Literal.positive(Predicate("position", ["?p"])),
             Literal.positive(Predicate("ladder-at", ["?p"])),
         ]),
         effects=FormulaAnd([Literal.positive(Predicate("up"))]),
     )
     op5 = Action(
         name="climb-down",
         parameters=[],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.positive(Predicate("up")),
         ]),
         effects=FormulaAnd([Literal.negative(Predicate("up"))]),
     )
     op6 = Action(
         name="jump-over",
         parameters=[
             Term.variable("?from", "location"),
             Term.variable("?middle", "location"),
             Term.variable("?to", "location"),
         ],
         preconditions=FormulaAnd([
             Literal.negative(Predicate("broken-leg")),
             Literal.positive(Predicate("up")),
             Literal.positive(Predicate("position", ["?from"])),
             Literal.positive(Predicate(
                 "next-fwd",
                 ["?from", "?middle"],
             )),
             Literal.positive(Predicate("next-fwd", ["?middle", "?to"])),
         ]),
         effects=FormulaOneOf([
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("broken-leg")),
             ]),
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("broken-leg")),
                 Literal.positive(Predicate("position", ["?middle"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("position", ["?middle"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("broken-leg")),
                 Literal.positive(Predicate("position", ["?to"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
             FormulaAnd([
                 Literal.negative(Predicate("up")),
                 Literal.positive(Predicate("position", ["?to"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
             FormulaAnd([
                 Literal.positive(Predicate("position", ["?to"])),
                 Literal.negative(Predicate("position", ["?from"])),
             ]),
         ]),
     )
     assert self.pddl_operators == [op1, op2, op3, op4, op5, op6]