示例#1
0
    def test_shortest_path(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "topology")
        from_nid = TopologyId(1)
        to_nid = TopologyId(15)
        topology_result = configuration.shortest_path(from_nid, to_nid)

        expected_result = ([1, 12, 13, 14, 15], [1, 2, 13, 14,
                                                 15], [1, 2, 3, 14,
                                                       15], [1, 2, 3, 4, 15])

        self.assertIn(topology_result, expected_result)

        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "randomised")
        from_nid = configuration.topology.t2o(from_nid)
        to_nid = configuration.topology.t2o(to_nid)
        randomised_result = configuration.shortest_path(from_nid, to_nid)

        expected_result = tuple(
            list(map(configuration.topology.t2o, result))
            for result in expected_result)

        self.assertIn(randomised_result, expected_result)

        self.assertEqual(topology_result,
                         map(configuration.topology.o2t, randomised_result))
示例#2
0
文件: analysis.py 项目: MBradbury/slp
def _average_duty_cycle(columns, cached_cols, constants):
    t2o = constants["configuration"].topology.t2o

    return columns["DutyCycle"].apply(lambda x: np.mean([
        d for (nid, d) in x.items()
        if t2o(TopologyId(nid)) not in constants["configuration"].sink_ids
    ]))
示例#3
0
    def __init__(self, topology, source_ids, sink_ids, space_behind_sink):
        super().__init__()

        self.topology = topology
        self.sink_ids = {
            topology.t2o(TopologyId(sink_id))
            for sink_id in sink_ids
        }
        self.source_ids = {
            topology.t2o(TopologyId(source_id))
            for source_id in source_ids
        }
        self.space_behind_sink = space_behind_sink

        if any(sink_id.nid < 0 for sink_id in self.sink_ids):
            raise RuntimeError("All sink ids must be positive")

        if any(source_id.nid < 0 for source_id in self.source_ids):
            raise RuntimeError("All source ids must be positive")

        if any(sink_id not in topology.nodes for sink_id in self.sink_ids):
            raise RuntimeError(
                f"The a sink id {self.sink_ids} is not present in the available node ids {topology.nodes}"
            )

        if any(source_id not in topology.nodes
               for source_id in self.source_ids):
            raise RuntimeError(
                f"The a source id {self.source_ids} is not present in the available node ids {topology.nodes}"
            )

        if len(self.sink_ids) == 0:
            raise RuntimeError(
                "There must be at least one sink in the configuration")

        if len(self.source_ids) == 0:
            raise RuntimeError(
                "There must be at least one source in the configuration")

        self._dist_matrix = None
        self._dist_matrix_meters = None
        self._predecessors = None

        self._build_connectivity_matrix()
示例#4
0
    def test_ssd_topology(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "topology")
        source_id = TopologyId(0)

        self.assertIn(source_id, configuration.source_ids)
        self.assertEqual(configuration.ssd(source_id), 10)

        with self.assertRaises(RuntimeError):
            configuration.ssd(1)
示例#5
0
    def test_node_distance(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "topology")
        from_nid = TopologyId(1)
        to_nid = TopologyId(15)
        topology_result = configuration.node_distance(from_nid, to_nid)

        expected_result = 4

        self.assertEqual(topology_result, expected_result)

        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "randomised")
        from_nid = configuration.topology.t2o(from_nid)
        to_nid = configuration.topology.t2o(to_nid)
        randomised_result = configuration.node_distance(from_nid, to_nid)

        self.assertEqual(randomised_result, expected_result)

        self.assertEqual(topology_result, randomised_result)
示例#6
0
    def test_ssd_randomised(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "randomised")
        source_id = TopologyId(0)
        adjusted_source_id = configuration.topology.t2o(source_id)

        self.assertIn(adjusted_source_id, configuration.source_ids)
        self.assertEqual(configuration.ssd(adjusted_source_id), 10)

        # Get another node id that is not the source
        with self.assertRaises(RuntimeError):
            configuration.ssd((adjusted_source_id + 1) % configuration.size())
示例#7
0
    def get_node_id(self, topo_node_id_str):
        """Gets the topology node id from a node id string.
        This value could either be the topology node id as an integer,
        or it could be an attribute of the topology or configuration (e.g., 'sink_id')."""
        try:
            topo_node_id = TopologyId(int(topo_node_id_str))

            # Check valid node
            ord_node_id = self.topology.t2o(topo_node_id)
            if ord_node_id not in self.topology.nodes:
                raise RuntimeError(
                    f"The node id {topo_node_id} is not a valid node id")

            return topo_node_id

        except ValueError:
            attr_sources = (self, self.topology)
            for attr_source in attr_sources:
                if hasattr(attr_source, topo_node_id_str):
                    ord_node_id = getattr(attr_source, topo_node_id_str)

                    return self.topology.o2t(ord_node_id)

                # For sink_id and source_id look for plurals of them
                # Then make sure there is only one to choose from
                if hasattr(attr_source, topo_node_id_str + "s"):
                    ord_node_ids = getattr(attr_source, topo_node_id_str + "s")

                    if len(ord_node_ids) != 1:
                        raise RuntimeError(
                            f"Unable to get a {topo_node_id_str} because there is not only one of them."
                        )

                    ord_node_id = next(iter(ord_node_ids))

                    return self.topology.o2t(ord_node_id)

            choices = [
                x for a in (self, self.topology) for x in dir(a)
                if not callable(getattr(a, x)) and not x.startswith("_")
            ]

            import difflib

            close = difflib.get_close_matches(topo_node_id_str, choices, n=5)
            if len(close) == 0:
                close = choices

            raise RuntimeError(
                f"No way to work out node from '{topo_node_id_str}', did you mean one of {close}."
            )
示例#8
0
    def test_node_distance_meters(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "topology")
        from_nid = TopologyId(1)
        to_nid = TopologyId(15)
        topology_result = configuration.node_distance_meters(from_nid, to_nid)

        from_coords = np.array((0 * 4.5, 1 * 4.5), dtype=np.float64)
        to_coords = np.array((1 * 4.5, 4 * 4.5), dtype=np.float64)
        expected_result = euclidean2_2d(from_coords, to_coords)

        self.assertEqual(topology_result, expected_result)

        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "randomised")
        from_nid = configuration.topology.t2o(from_nid)
        to_nid = configuration.topology.t2o(to_nid)
        randomised_result = configuration.node_distance_meters(
            from_nid, to_nid)

        self.assertEqual(randomised_result, expected_result)

        self.assertEqual(topology_result, randomised_result)
示例#9
0
    def test_ssd_meters(self):
        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "topology")
        source = TopologyId(0)
        topology_result = configuration.ssd_meters(source)

        from_coords = np.array((0 * 4.5, 0 * 4.5), dtype=np.float64)
        to_coords = np.array((5 * 4.5, 5 * 4.5), dtype=np.float64)
        expected_result = euclidean2_2d(from_coords, to_coords)

        self.assertEqual(topology_result, expected_result)

        configuration = simulator.Configuration.create_specific(
            'SourceCorner', 11, 4.5, "randomised")
        source = configuration.topology.t2o(source)
        randomised_result = configuration.ssd_meters(source)

        self.assertEqual(randomised_result, expected_result)

        self.assertEqual(topology_result, randomised_result)