Пример #1
0
    def setUp(self):
        # obligatory and optional ports
        out_port_obl = OutPort(
            NamespacedName("port_name", None),
            DInt(),
            InPort(NamespacedName("port_name", None),
                   DInt(), None, 0),
            None
        )
        out_port_opt = OutPort(
            NamespacedName("port_name", None),
            DInt(),
            InPort(NamespacedName("port_name", None),
                   DOptional(DInt()), None, 0),
            None
        )

        # 4 types of queues
        self.delta_queue_obl = DeltaQueue(out_port_obl)
        self.delta_queue_opt = DeltaQueue(out_port_opt)
        self.const_queue_obl = ConstQueue(out_port_obl)
        self.const_queue_opt = ConstQueue(out_port_opt)

        # test messages
        self.msg1 = QueueMessage(1)
        self.msg2 = QueueMessage(2)
        self.msg_with_none = QueueMessage(None)
        self.msg_unpackable = QueueMessage("abcde")

        # these messages should be received
        self.msg1_answer = QueueMessage(1)
        self.msg2_answer = QueueMessage(2)
        self.msg_with_none_answer = QueueMessage(None)
Пример #2
0
    def test_str(self):
        self.assertEqual(str(NamespacedName("a", "b")), "a.b")
        self.assertEqual(str(NamespacedName("a", None)), "a")

        with self.assertRaises(TypeError):
            NamespacedName("a")

        with self.assertRaises(TypeError):
            NamespacedName()
Пример #3
0
 def test_out_port_capnp_wiring(self):
     """Generate wiring. Should just call same method in destination."""
     in_port = Mock()
     out_port = OutPort(NamespacedName("node_name", None),
                        as_delta_type(int), in_port, None)
     out_port.capnp_wiring([], None)
     in_port.capnp_wiring.assert_called_with([], None)
Пример #4
0
 def test_in_port_capnp_optional(self):
     """Generate optional in port."""
     in_port = InPort(NamespacedName("node_name", "index"), DOptional(int),
                      None, 0)
     capnp_in_port = dotdf_capnp.InPort.new_message()
     in_port.capnp(capnp_in_port)
     self.assertEqual(capnp_in_port.name, "index")
     self.assertEqual(dill.loads(capnp_in_port.type), DInt())
     self.assertEqual(capnp_in_port.optional, True)
Пример #5
0
 def test_in_port_capnp(self):
     """Generate in port."""
     in_port = InPort(NamespacedName("node_name", "index"),
                      as_delta_type(int), None, 0)
     capnp_in_port = dotdf_capnp.InPort.new_message()
     in_port.capnp(capnp_in_port)
     self.assertEqual(capnp_in_port.name, "index")
     self.assertEqual(dill.loads(capnp_in_port.type), as_delta_type(int))
     self.assertEqual(capnp_in_port.optional, False)
Пример #6
0
    def add_out_port(self, port_destination: InPort, index=None):
        """Creates an out-port and adds it to my out-port store.

        Parameters
        ----------
        index : Optional[str]
            If the out-port is one of several for this node, index specifies
            what part of the output is sent via this port. If the node has
            only one output, then this is `None`.
        port_destination : InPort
            The in-port that this out-port exports to.
        """
        try:
            if issubclass(self.outputs, Void):
                raise DeltaIOError(
                    f"Cannot make an out-port on node {self.name} "
                    "with return type \'Void\'.\n"
                    "Please either add the proper return type to the "
                    "node definition or do not try to create an "
                    "output data channel from this node.")
        except TypeError:
            pass

        if index is None:  # out-port type is whole node return type
            # due to the strict typing the out type should match the in type
            if self.is_autogenerated:
                type_out = port_destination.port_type
            else:
                type_out = as_delta_type(self.outputs)

            self.out_ports.append(
                OutPort(NamespacedName(self.name, None), type_out,
                        port_destination, self))
        else:  # out-port type is indexed node return type
            self.out_ports.append(
                OutPort(NamespacedName(self.name, index),
                        as_delta_type(self.outputs.elem_dict[index]),
                        port_destination, self))

        # If this port is going into a port on a different graph,
        # flatten this graph into said graph
        into_graph = port_destination.node.graph
        if into_graph is not self.graph:
            into_graph.flatten(self.graph)
Пример #7
0
 def test_out_port_capnp(self):
     """Generate out port."""
     out_port = OutPort(NamespacedName("node_name", "index"),
                        as_delta_type(int), None, None)
     capnp_out_port = dotdf_capnp.OutPort.new_message()
     out_port.capnp(capnp_out_port)
     self.assertEqual(capnp_out_port.name, "index")
     self.assertEqual(dill.loads(capnp_out_port.type), as_delta_type(int))
     with self.assertRaises(AttributeError):
         dummy = capnp_out_port.optional
Пример #8
0
 def test_out_port_capnp_no_index(self):
     """Generate out port when index not provided.
     In this case, name should be empty string.
     """
     out_port = OutPort(NamespacedName("node_name", None),
                        as_delta_type(int), None, None)
     capnp_out_port = dotdf_capnp.OutPort.new_message()
     out_port.capnp(capnp_out_port)
     self.assertEqual(capnp_out_port.name, "")
     self.assertEqual(dill.loads(capnp_out_port.type), as_delta_type(int))
Пример #9
0
    def test_eq(self):
        self.assertEqual(NamespacedName("a", "b"), NamespacedName("a", "b"))

        self.assertEqual(NamespacedName("a", None), NamespacedName("a", None))

        self.assertNotEqual(NamespacedName("a", "b"),
                            NamespacedName("a", None))
Пример #10
0
 def test_in_port_capnp_wiring_direct(self):
     """In port has limit on port size."""
     in_port = InPort(NamespacedName("node_name", "index"),
                      as_delta_type(int), None, 1)
     wire = dotdf_capnp.Wire.new_message()
     nodes = [dotdf_capnp.Node.new_message()]
     nodes[0].name = "node_name"
     nodes[0].init("inPorts", 1)
     nodes[0].inPorts[0].name = "index"
     in_port.capnp_wiring(nodes, wire)
     self.assertEqual(wire.destNode, 0)
     self.assertEqual(wire.destInPort, 0)
     self.assertEqual(wire.direct, True)
Пример #11
0
 def test_in_port_capnp_wiring(self):
     """Generate wiring."""
     in_port = InPort(NamespacedName("node_name", "index"),
                      as_delta_type(int), None, 0)
     wire = dotdf_capnp.Wire.new_message()
     nodes = [dotdf_capnp.Node.new_message() for _ in range(3)]
     nodes[0].name = "fake_name"
     nodes[1].name = "fake_name"
     nodes[2].name = "node_name"
     nodes[2].init("inPorts", 3)
     nodes[2].inPorts[0].name = "fake_name"
     nodes[2].inPorts[1].name = "index"
     nodes[2].inPorts[2].name = "fake_name"
     in_port.capnp_wiring(nodes, wire)
     self.assertEqual(wire.destNode, 2)
     self.assertEqual(wire.destInPort, 1)
     self.assertEqual(wire.direct, False)
Пример #12
0
    def test_str(self):
        """Test string representation of data types."""
        # primitive
        self.assertEqual(str(DInt()), "DInt32")
        self.assertEqual(str(DInt(DSize(64))), "DInt64")
        self.assertEqual(str(DUInt()), "DUInt32")
        self.assertEqual(str(DUInt(DSize(64))), "DUInt64")
        self.assertEqual(str(DBool()), "DBool")
        self.assertEqual(str(DChar()), "DChar8")
        self.assertEqual(str(DFloat()), "DFloat32")
        self.assertEqual(str(DFloat(DSize(64))), "DFloat64")

        # compound
        self.assertEqual(str(DArray(int, DSize(8))), "[DInt32 x 8]")
        self.assertEqual(str(DStr()), "DStr8192")
        self.assertEqual(str(DStr(DSize(100))), "DStr800")
        self.assertEqual(str(DTuple([int, bool])), "(DInt32, DBool)")
        self.assertEqual(str(DRecord(RecBIS)),
                         "{x: DBool, y: DInt32, z: DStr8192}")
        self.assertEqual(str(DUnion([int, bool])), "<DBool | DInt32>")

        # compound: DUnion
        self.assertEqual(str(DUnion([int])), "<DInt32>")
        self.assertEqual(str(DUnion([int, DUnion([int, bool])])),
                         "<DBool | DInt32>")
        self.assertEqual(str(DUnion([int, DUnion([int, DUnion([int, bool])])])),
                         "<DBool | DInt32>")

        # encapsulation of various types
        self.assertEqual(str(DUnion([int, DTuple([int, bool])])),
                         "<(DInt32, DBool) | DInt32>")
        self.assertEqual(str(DArray(DTuple([int, bool]), DSize(8))),
                         "[(DInt32, DBool) x 8]")

        # special
        self.assertEqual(str(Top()), "T")
        self.assertEqual(str(DSize(5)), "5")
        self.assertEqual(str(DSize(NamespacedName("a", "b"))), "(a.b)")
        self.assertEqual(str(ForkedReturn(dict(x=int, y=bool, z=str))),
                         "ForkedReturn(x:DInt32, y:DBool, z:DStr8192)")
Пример #13
0
    def add_in_port(self, arg_name: str, in_type: Type, in_port_size: int = 0):
        """Creates an in-port and adds it to my in-port store.

        Parameters
        ----------
        arg_name : str
            Name of the argument this port supplies.
        in_type : Type
            The type that is expected to be supplied for this port.
        in_port_size: int
            Maximum size of the in ports.
            If 0 then size is unlimited.

        Returns
        -------
        InPort
            The created port.
        """
        my_port = InPort(NamespacedName(self.name, arg_name),
                         as_delta_type(in_type), self, in_port_size)
        self.in_ports[my_port.port_name] = my_port
        return my_port
Пример #14
0
    def test_DSize(self):
        """Test various use DSize."""
        with self.assertRaises(DeltaTypeError):
            DInt(5)

        with self.assertRaises(ValueError):
            DSize(-1)

        with self.assertRaises(ValueError):
            dummy = DSize(4) + DSize(NamespacedName("a", "b"))

        # add
        d16_32 = DSize(16)
        d16_32 += DSize(32)
        self.assertEqual(d16_32, DSize(48))
        self.assertEqual(DSize(4) + DSize(5), DSize(9))

        # sub
        d32_16 = DSize(32)
        d32_16 -= DSize(16)
        self.assertEqual(d32_16, DSize(16))
        self.assertEqual(DSize(5) - DSize(2), DSize(3))
        with self.assertRaises(ValueError):
            dummy = DSize(5) - DSize(6)

        # mul
        self.assertEqual(DSize(4) * 5, DSize(20))
        self.assertEqual(5 * DSize(4), DSize(20))
        d16x4 = DSize(16)
        d16x4 *= 4
        self.assertEqual(d16x4, DSize(64))
        d16x4 = DSize(16)
        d16x4 *= DSize(4)
        self.assertEqual(d16x4, DSize(64))

        # comparison
        self.assertTrue(DSize(8) == DSize(8))
        self.assertTrue(DSize(8) > DSize(6))
        self.assertTrue(DSize(4) < DSize(6))
Пример #15
0
    def test_Size(self):
        """Test various use Size."""
        with self.assertRaises(DeltaTypeError):
            Int(5)

        with self.assertRaises(ValueError):
            Size(-1)

        with self.assertRaises(ValueError):
            dummy = Size(4) + Size(NamespacedName("a", "b"))

        # add
        d16_32 = Size(16)
        d16_32 += Size(32)
        self.assertEqual(d16_32, Size(48))
        self.assertEqual(Size(4) + Size(5), Size(9))

        # sub
        d32_16 = Size(32)
        d32_16 -= Size(16)
        self.assertEqual(d32_16, Size(16))
        self.assertEqual(Size(5) - Size(2), Size(3))
        with self.assertRaises(ValueError):
            dummy = Size(5) - Size(6)

        # mul
        self.assertEqual(Size(4) * 5, Size(20))
        self.assertEqual(5 * Size(4), Size(20))
        d16x4 = Size(16)
        d16x4 *= 4
        self.assertEqual(d16x4, Size(64))
        d16x4 = Size(16)
        d16x4 *= Size(4)
        self.assertEqual(d16x4, Size(64))

        # comparison
        self.assertTrue(Size(8) == Size(8))
        self.assertTrue(Size(8) > Size(6))
        self.assertTrue(Size(4) < Size(6))
Пример #16
0
    def test_str(self):
        """Test string representation of data types."""
        # primitive
        self.assertEqual(str(Int()), "Int32")
        self.assertEqual(str(Int(Size(64))), "Int64")
        self.assertEqual(str(UInt()), "UInt32")
        self.assertEqual(str(UInt(Size(64))), "UInt64")
        self.assertEqual(str(Bool()), "Bool")
        self.assertEqual(str(Char()), "Char8")
        self.assertEqual(str(Float()), "Float32")
        self.assertEqual(str(Float(Size(64))), "Float64")

        # compound
        self.assertEqual(str(Array(int, Size(8))), "[Int32 x 8]")
        self.assertEqual(str(Str()), "Str8192")
        self.assertEqual(str(Str(Size(100))), "Str800")
        self.assertEqual(str(Tuple([int, bool])), "(Int32, Bool)")
        self.assertEqual(str(Record(RecBIS)),
                         "{x: Bool, y: Int32, z: Str8192}")
        self.assertEqual(str(Union([int, bool])), "<Bool | Int32>")

        # compound: Union
        self.assertEqual(str(Union([int])), "<Int32>")
        self.assertEqual(str(Union([int, Union([int, bool])])),
                         "<Bool | Int32>")
        self.assertEqual(str(Union([int, Union([int, Union([int, bool])])])),
                         "<Bool | Int32>")

        # encapsulation of various types
        self.assertEqual(str(Union([int, Tuple([int, bool])])),
                         "<(Int32, Bool) | Int32>")
        self.assertEqual(str(Array(Tuple([int, bool]), Size(8))),
                         "[(Int32, Bool) x 8]")

        # special
        self.assertEqual(str(Top()), "T")
        self.assertEqual(str(Size(5)), "5")
        self.assertEqual(str(Size(NamespacedName("a", "b"))), "(a.b)")
Пример #17
0
 def test_DOptional(self):
     port = OutPort(NamespacedName("test_name", None), DOptional(DInt()),
                    None, None)
     with self.assertRaises(TypeError):
         dummy = port.port_type
Пример #18
0
 def test_non_DOptional(self):
     port = OutPort(NamespacedName("test_name", None), DInt(), None, None)
     self.assertEqual(port.port_type, DInt())
Пример #19
0
 def test_DOptiona_of_DUnion(self):
     port = InPort(NamespacedName("test_name", None),
                   DOptional(DUnion([DInt(), DFloat()])), None, 0)
     self.assertEqual(port.port_type, DUnion([DInt(), DFloat()]))
     self.assertEqual(port.is_optional, True)
Пример #20
0
 def test_DUnion_of_single(self):
     """DUnion of a single type is not converted to a single type."""
     port = InPort(NamespacedName("test_name", None), DUnion([DInt()]),
                   None, 0)
     self.assertEqual(port.port_type, DUnion([DInt()]))
     self.assertEqual(port.is_optional, False)
Пример #21
0
 def test_DOptional(self):
     port = InPort(NamespacedName("test_name", None), DOptional(DInt()),
                   None, 0)
     self.assertEqual(port.port_type, DInt())
     self.assertEqual(port.is_optional, True)