Exemplo n.º 1
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    def test_stations_coverage(self):
        sq = cities.SquareCity(6, 7 * 4, 2)
        cells = set(sq.city_map.keys())

        stations, clusters = sq.place_stations_new("central", 16)

        self.assertEqual(
            cells, {c
                    for c in cells for cells in clusters},
            "There are cells that are not covered by any station.")
Exemplo n.º 2
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 def test_total_d_stations(self):
     sq = cities.SquareCity(6, 7 * 4, 2)
     min_d_stations = 10
     self.assertEqual(
         sq.set_max_chargers_stations(2, 10)[1], 16,
         "Number of small distributed stations is not the expected.")
     self.assertEqual(
         sq.set_max_chargers_stations(2, 16)[1], 16,
         "Number of small distributed stations is not the expected.")
     self.assertEqual(
         sq.set_max_chargers_stations(2, 17)[1], 36,
         "Number of small distributed stations is not the expected.")
Exemplo n.º 3
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    def test_lattice_distance(self):
        sq = cities.SquareCity(6, 7 * 4, 2)
        # With this city the SIZE = 72

        self.assertEqual(lattice_distance(0, 0, 0, 0), 0,
                         "Lattice distance for zero distance not working")
        self.assertEqual(lattice_distance(0, 0, 10, 10), 20,
                         "Lattice distance same cuadrant not working")
        self.assertEqual(lattice_distance(0, 0, 71, 71),
                         2), "Lattice distance different cuadrants not working"
        self.assertEqual(
            lattice_distance(10, 10, 50, 50),
            64), "Lattice distance different cuadrants not working"
Exemplo n.º 4
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 def test_rechability(self):
     sq = cities.SquareCity(6, 5 * 4, 2)
     city_map = sq.city_map
     all_cells = set(city_map.values())
     start = random.choice(list(all_cells))
     visited = set()
     open_set = [start]
     while open_set:
         current = open_set.pop()
         visited.add(current)
         for cell in current.successors:
             if cell not in visited:
                 open_set.append(cell)
     self.assertEqual(all_cells, visited,
                      "There are cells that are not reachable")
Exemplo n.º 5
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    def test_stations_placement(self):
        sq = cities.SquareCity(6, 7 * 4, 2)
        stations, clusters = sq.place_stations_new("central", 16)
        self.assertTrue(
            len(stations) == len(clusters),
            "Number of stations cluster doesn't match the service areas.")

        stations, clusters = sq.place_stations_new("distributed", 16)
        self.assertTrue(
            len(stations) == len(clusters),
            "Number of stations cluster doesn't match the service areas.")

        stations, clusters = sq.place_stations_new("four", 16)
        self.assertTrue(
            len(stations) == len(clusters),
            "Number of stations cluster doesn't match the service areas.")
Exemplo n.º 6
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 def test_size(self):
     sq = cities.SquareCity(6, 7 * 4, 2)
     matrix = sq.city_matrix
     base = 6 + 2 + 7 * 4
     self.assertEqual(matrix.shape, (2 * base, 2 * base),
                      "Square city shape is not squared")
Exemplo n.º 7
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 def test_different_types(self):
     sq = cities.SquareCity(6, 7 * 4, 2)
     av, rb, st = sq.avenues, sq.roundabouts, sq.streets
     self.assertEqual(av.intersection(rb, st), set(),
                      "There are collisions between the cell types")
Exemplo n.º 8
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 def test_path_length(self):
     sq = cities.SquareCity(6, 7 * 4, 2)