Ejemplo n.º 1
0
 def test_emit_mass_stored_3(self):
     """
     Corner case: emitting 0 mass does not affect mass stored.
     """
     emitter = MarbleEmitter(self.__mock_prototype, 0, stored_mass=13)
     emitter.emit()
     self.assertEqual(emitter._Emitter__stored_mass.item(), 13)
Ejemplo n.º 2
0
 def test_can_emit_massfull_3(self):
     """
     Base case: can emit negative mass when negative mass stored.
     """
     neg_mass_prototype = MockPrototype(-1)
     emitter = MarbleEmitter(neg_mass_prototype, 0, stored_mass=-1)
     self.assertTrue(emitter.can_emit())
Ejemplo n.º 3
0
 def test_emit_mass_stored_2(self):
     """
     Base case: emitting negative mass increases mass stored.
     """
     emitter = MarbleEmitter(MockPrototype(-1), 0, stored_mass=-1)
     emitter.emit()
     self.assertEqual(emitter._Emitter__stored_mass.item(), 0)
Ejemplo n.º 4
0
    def test_spawn_location_2(self):
        """
        Base case: stationary Node.
        Using a normal MarbleEmitter.
        """
        vel = torch.tensor([1.0])
        radius = 10
        eps = 10e-5
        prototype = Marble(ZERO + radius + eps, ZERO, ZERO, 0, None, None, 0,
                           0, 0, 0)
        emitter = MarbleEmitter(prototype, 0, 10)
        emitter_node = MarbleEmitterNode(ZERO,
                                         vel,
                                         ZERO,
                                         0,
                                         None,
                                         0,
                                         0,
                                         0,
                                         0,
                                         radius=radius,
                                         emitter=emitter)

        self.assertTrue(check_close(emitter_node.pos, ZERO))
        self.assertTrue(check_close(emitter.emit().pos, ZERO + radius + eps))
Ejemplo n.º 5
0
 def test_can_emit_massfull_2(self):
     """
     Base case: can emit after adding sufficient mass.
     """
     emitter = MarbleEmitter(self.__massfull_prototype, 0, stored_mass=0)
     emitter.eat_mass(self.__mass)
     self.assertTrue(emitter.can_emit())
Ejemplo n.º 6
0
Archivo: bit.py Proyecto: Nifrec/nenwin
def bit_write_expetiment_emitters():
    locker_nodes = __generate_locker_nodes(LOCKER_POSITIONS)

    # Unity vector from lower-left-corner towards upper-right-corner
    incoming_direction = 0.5 * np.sqrt(2) * np.array([1, -1])
    outer_emitter_pos = BIT_POS - 50 * incoming_direction
    inner_emitter_pos = BIT_POS - 0.1 * incoming_direction
    outer_radius = 5

    signal_marble_pos = outer_emitter_pos + outer_radius * (incoming_direction)
    signal_marble_mass = BIT_MARBLE_MASS
    signal_marble_prototype = Marble(pos=signal_marble_pos,
                                     vel=10 * incoming_direction,
                                     acc=ZERO,
                                     mass=signal_marble_mass,
                                     attraction_function=ZERO_ATTRACTION,
                                     datum=None,
                                     **READER_MARBLE_STIFFNESS)
    outer_emitter = MarbleEmitter(signal_marble_prototype, 0, 0)
    outer_emitter_node = MarbleEmitterNode(outer_emitter_pos,
                                           ZERO,
                                           ZERO,
                                           1,
                                           ZERO_ATTRACTION,
                                           radius=outer_radius,
                                           emitter=outer_emitter,
                                           **EMITTER_STIFFNESSES)
    inner_emitter_pos = BIT_POS - 2 * (incoming_direction)
    inner_emitter_radius = 0.01
    bit_spawn_pos = inner_emitter_pos + \
        incoming_direction*inner_emitter_radius

    bit_marble = Marble(pos=bit_spawn_pos,
                        vel=np.array([1, 0.5]),
                        acc=ZERO,
                        mass=BIT_MARBLE_MASS,
                        attraction_function=ATTRACTION_FUNCTION,
                        datum=None,
                        **BIT_MARBLE_STIFFNESS)
    inner_emitter = MarbleEmitter(bit_marble, 0)
    inner_emitter_node = MarbleEmitterNode(inner_emitter_pos,
                                           ZERO,
                                           ZERO,
                                           1,
                                           ZERO_ATTRACTION,
                                           radius=inner_emitter_radius,
                                           emitter=inner_emitter,
                                           **EMITTER_STIFFNESSES)

    activation_marble = Marble(pos=outer_emitter_pos + np.array([0, 100]),
                               vel=np.array([0, -10]),
                               acc=ZERO,
                               mass=signal_marble_mass,
                               attraction_function=ATTRACTION_FUNCTION,
                               datum=None,
                               **READER_MARBLE_STIFFNESS)

    run([activation_marble],
        locker_nodes + [outer_emitter_node, inner_emitter_node])
Ejemplo n.º 7
0
 def test_can_emit_massfull_4(self):
     """
     Base case: can emit if initial mass is sufficient.
     """
     emitter = MarbleEmitter(self.__massfull_prototype,
                             0,
                             stored_mass=self.__mass)
     self.assertTrue(emitter.can_emit())
Ejemplo n.º 8
0
 def test_delay_5(self):
     """
     Base case: cannot emit at start if initial_time_passed is too low.
     """
     emitter = MarbleEmitter(self.__mock_prototype,
                             10,
                             initial_time_passed=0)
     self.assertFalse(emitter.can_emit())
Ejemplo n.º 9
0
 def test_delay_1(self):
     """
     Base case: can always emit at start if initial_time_passed high enough.
     """
     emitter = MarbleEmitter(self.__mock_prototype,
                             10,
                             initial_time_passed=10)
     self.assertTrue(emitter.can_emit())
Ejemplo n.º 10
0
 def test_delay_4(self):
     """
     Base case: can emit second time after *more* than enough time passed.
     """
     delay = 10
     emitter = MarbleEmitter(self.__mock_prototype, delay)
     emitter.register_time_passed(delay + 10)
     self.assertTrue(emitter.can_emit())
Ejemplo n.º 11
0
 def test_emit_output_type(self):
     """
     Output should be a EmittedMarble, not just a normal Marble.
     """
     prototype = Marble(ZERO, ZERO, ZERO, 0, None, None)
     delay = 0
     emitter = MarbleEmitter(prototype, delay)
     output = emitter.emit()
     self.assertIsInstance(output, EmittedMarble)
Ejemplo n.º 12
0
 def test_emit_mass_stored_1(self):
     """
     Base case: emitting positive mass decreases mass stored.
     """
     emitter = MarbleEmitter(self.__massfull_prototype,
                             0,
                             stored_mass=self.__mass)
     emitter.emit()
     self.assertEqual(emitter._Emitter__stored_mass.item(), 0)
Ejemplo n.º 13
0
 def test_emit_massfull_3(self):
     """
     Base case: can emit negative massfull Marble when negative mass stored.
     (Should not raise any errors)
     """
     neg_mass_prototype = MockPrototype(-1)
     emitter = MarbleEmitter(neg_mass_prototype, 0, stored_mass=-1)
     try:
         emitter.emit()
     except:
         self.fail("Operation should not raise errors")
Ejemplo n.º 14
0
 def test_emit_massfull_2(self):
     """
     Base case: can emit massfull Marble when sufficient mass stored.
     """
     emitter = MarbleEmitter(self.__massfull_prototype,
                             0,
                             stored_mass=self.__mass)
     try:
         emitter.emit()
     except:
         self.fail("Operation should not raise errors")
Ejemplo n.º 15
0
    def setup_full_emitter(
            self) -> Tuple[Emitter, Marble, float, float, float]:
        """
        Create an instance of a MarbleEmitter with a full prototype Marble
        (not a mock Marble). Also returns the delay, stored_mass
        and initial_time_passed, 
        which have arbitrary nonzero floating-point values.

        Returns:
        * A MarbleEmitter instance
        * A Marble, the prototype associated with the emitter
        * The delay of the emitter
        * The initally stored mass of the emitter
        * The initial time passed of the emitter
        """
        pos = torch.tensor([0], dtype=torch.float)
        vel = torch.tensor([1], dtype=torch.float)
        acc = torch.tensor([2], dtype=torch.float)
        mass = 3.0
        attraction_function = NewtonianGravity()
        marble_stiffness = 0.4
        node_stiffness = 0.5
        marble_attraction = 0.6
        node_attraction = 0.7
        prototype = Marble(pos, vel, acc, mass, attraction_function, None,
                           marble_stiffness, node_stiffness, marble_attraction,
                           node_attraction)
        delay = 8.1
        stored_mass = 9.1
        initial_time_passed = 11.1

        emitter = MarbleEmitter(prototype, delay, stored_mass,
                                initial_time_passed)

        return emitter, prototype, delay, stored_mass, initial_time_passed
Ejemplo n.º 16
0
 def test_emit_1(self):
     """
     Corner case: throw error when trying to emit 
     too early after previous emit.
     """
     delay = 10
     emitter = MarbleEmitter(self.__mock_prototype, delay)
     emitter.register_time_passed(delay)
     emitter.emit()
     emitter.register_time_passed(delay / 2)
     self.assertRaises(RuntimeError, emitter.emit)
Ejemplo n.º 17
0
 def test_delay_2(self):
     """
     Base case: cannot emit right after previous emit, when delay > 0.
     """
     delay = 10
     emitter = MarbleEmitter(self.__mock_prototype, delay)
     emitter.register_time_passed(delay)
     emitter.emit()
     self.assertFalse(emitter.can_emit())
Ejemplo n.º 18
0
    def test_repr_1(self):
        """
        Base case: no mass absorbed or time passed.
        """
        emitter, prototype, delay, stored_mass, initial_time_passed = \
            self.setup_full_emitter()

        expected = f"MarbleEmitter({repr(prototype)}," \
            + f"{convert_scalar_param_to_repr(delay)},"\
            + f"{convert_scalar_param_to_repr(stored_mass)},"\
            + f"{convert_scalar_param_to_repr(initial_time_passed)})"

        emitter = MarbleEmitter(prototype, delay, stored_mass,
                                initial_time_passed)
        result = repr(emitter)

        self.assertEqual(expected, result)
Ejemplo n.º 19
0
 def gen_emitter_node_with_delay(self, delay: float):
     emitter = MarbleEmitter(self.__prototype, delay)
     emitter_node = MarbleEmitterNode(np.array([1]), ZERO, ZERO,
                                      1, ATTRACT_FUNCT,
                                      0, 0, 0, 0, 0.1, emitter)
     return emitter, emitter_node
Ejemplo n.º 20
0
 def test_can_emit_massfull_1(self):
     """
     Base case: cannot emit massfull Marble when no mass stored.
     """
     emitter = MarbleEmitter(self.__massfull_prototype, 0, stored_mass=0)
     self.assertFalse(emitter.can_emit())
Ejemplo n.º 21
0
 def test_can_emit_massfull_5(self):
     """
     Corner case: cannot emit negative mass if own mass is positive.
     """
     emitter = MarbleEmitter(MockPrototype(-1), 0, stored_mass=1)
     self.assertFalse(emitter.can_emit())
Ejemplo n.º 22
0
 def test_emit_massfull_1(self):
     """
     Base case: cannot emit massfull Marble when no mass stored.
     """
     emitter = MarbleEmitter(self.__massfull_prototype, 0, stored_mass=0)
     self.assertRaises(RuntimeError, emitter.emit)