Ejemplo n.º 1
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 def test_solution_feasibility(self):
     """Test the feasibility check behaves correctly :
           - an empty solution must be valid
           - solutions generated by initial heuristic must be valid
           - All ones solutions must not be valid
     """
     problem_instance = utils_electric.ProblemInstance()
     sls = optim_electric.ElectricSls(
         problem_instance.costs, problem_instance.time,
         problem_instance.energy, problem_instance.requests,
         problem_instance.aircraft, problem_instance.skyports,
         problem_instance.time_compatible, problem_instance.gamma_s,
         problem_instance.gamma_f, problem_instance.pe,
         problem_instance.delta, problem_instance.lbda_f,
         problem_instance.min_soc, problem_instance.T)
     # since init heuristic is random by design
     # run it a few times with different seeds.
     for s in range(6):
         np.random.seed(s)
         init_heuri = sls.init_heuristic_random()
         self.assertTrue(
             sls.feasible_fast(init_heuri, sls.len_encod, sls.H,
                               problem_instance.time_compatible, sls.mask))
     all_ones = np.ones(init_heuri.shape)
     self.assertFalse(
         sls.feasible_fast(all_ones, sls.len_encod, sls.H,
                           problem_instance.time_compatible, sls.mask))
 def test_default_instance_gen(self):
     """ Test for the simulate_default_problem_instance() function """
     problem_instance = utils_electric.ProblemInstance()
     self.assertIsInstance(problem_instance.costs, np.ndarray)
     self.assertIsInstance(problem_instance.time, np.ndarray)
     self.assertIsInstance(problem_instance.energy, np.ndarray)
     self.assertIsInstance(problem_instance.requests, np.ndarray)
     self.assertIsInstance(problem_instance.aircraft, np.ndarray)
     self.assertIsInstance(problem_instance.skyports, np.ndarray)
     self.assertIsInstance(problem_instance.T, list)
     self.assertIsInstance(problem_instance.min_soc, float)
     self.assertIsInstance(problem_instance.lbda_f, float)
     self.assertIsInstance(problem_instance.lbda_u, float)
     self.assertIsInstance(problem_instance.pe, float)
     self.assertIsInstance(problem_instance.gamma_f, float)
     self.assertIsInstance(problem_instance.gamma_s, float)
     self.assertIsInstance(problem_instance.delta, int)
     self.assertTrue(problem_instance.delta >= 0.)
     self.assertTrue(problem_instance.gamma_s >= 0.)
     self.assertTrue(problem_instance.gamma_f >= 0.)
     self.assertTrue(problem_instance.pe >= 0.)
     self.assertTrue(problem_instance.min_soc >= 0.)
     self.assertTrue(problem_instance.min_soc < 100.)
     self.assertTrue(problem_instance.lbda_f >= 0.)
     self.assertTrue(problem_instance.lbda_u >= 0.)
 def test_time_compatible(self):
     """Test for process_compatibility function"""
     problem_instance = utils_electric.ProblemInstance()
     self.assertIsInstance(problem_instance.costs, np.ndarray)
     self.assertIsInstance(problem_instance.time, np.ndarray)
     self.assertIsInstance(problem_instance.energy, np.ndarray)
     self.assertIsInstance(problem_instance.requests, np.ndarray)
     self.assertIsInstance(problem_instance.aircraft, np.ndarray)
     self.assertIsInstance(problem_instance.skyports, np.ndarray)
Ejemplo n.º 4
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 def test_neighbourhoods(self):
     """
         Testing neighbourhoods function run correctly
         and return valid solutions.
     """
     problem_instance = utils_electric.ProblemInstance()
     sls = optim_electric.ElectricSls(
         problem_instance.costs, problem_instance.time,
         problem_instance.energy, problem_instance.requests,
         problem_instance.aircraft, problem_instance.skyports,
         problem_instance.time_compatible, problem_instance.gamma_s,
         problem_instance.gamma_f, problem_instance.pe,
         problem_instance.delta, problem_instance.lbda_f,
         problem_instance.min_soc, problem_instance.T)
     init_heuri = sls.init_heuristic_random()
     unserved, served = sls.update_served_status_fast(
         init_heuri, sls.n_requests, sls.len_encod)
     # remove req and add fast charge neighbourhood
     rm_rf = sls.rm_rf_neigh(init_heuri, served, unserved)
     self.assertIsInstance(rm_rf[0], np.ndarray)
     self.assertIsInstance(rm_rf[1], float)
     self.assertTrue(
         sls.feasible_fast(rm_rf[0], sls.len_encod, sls.H,
                           sls.time_compatible, sls.mask))
     # fast charge neighbourhood
     rf = sls.refuel_neigh(init_heuri, served, unserved)
     self.assertIsInstance(rf[0], np.ndarray)
     self.assertIsInstance(rf[1], float)
     self.assertTrue(
         sls.feasible_fast(rf[0], sls.len_encod, sls.H, sls.time_compatible,
                           sls.mask))
     # swap  2 req neighbourhood
     sw = sls.swap_neigh(init_heuri, served, unserved)
     self.assertIsInstance(sw[0], np.ndarray)
     self.assertIsInstance(sw[1], float)
     self.assertTrue(
         sls.feasible_fast(sw[0], sls.len_encod, sls.H, sls.time_compatible,
                           sls.mask))
     # shift neighbourhood
     sh = sls.shift_neigh(init_heuri, served, unserved)
     self.assertIsInstance(sh[0], np.ndarray)
     self.assertIsInstance(sh[1], float)
     self.assertTrue(
         sls.feasible_fast(sh[0], sls.len_encod, sls.H, sls.time_compatible,
                           sls.mask))
     # swap paths neighbourhood
     sp = sls.swap_paths_neigh(init_heuri, served, unserved)
     self.assertIsInstance(sp[0], np.ndarray)
     self.assertIsInstance(sp[1], float)
     self.assertTrue(
         sls.feasible_fast(sp[0], sls.len_encod, sls.H, sls.time_compatible,
                           sls.mask))
Ejemplo n.º 5
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    def test_cost_computation_sol(self):
        """Test for the function that computes the cost of an entire solution encoding."""
        problem_instance = utils_electric.ProblemInstance()
        sls = optim_electric.ElectricSls(
            problem_instance.costs, problem_instance.time,
            problem_instance.energy, problem_instance.requests,
            problem_instance.aircraft, problem_instance.skyports,
            problem_instance.time_compatible, problem_instance.gamma_s,
            problem_instance.gamma_f, problem_instance.pe,
            problem_instance.delta, problem_instance.lbda_f,
            problem_instance.min_soc, problem_instance.T)

        init_heuri = sls.init_heuristic_random()
        c = sls.compute_cost(init_heuri)
        c_inf = sls.compute_cost(np.ones(init_heuri.shape))
        self.assertTrue(c[2] >= 0)
        self.assertIsInstance(c[1], dict)
        self.assertTrue(c_inf[0] == np.inf)
Ejemplo n.º 6
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 def test_init(self):
     """Test if ElectricSls instantiate without errors.
        And also test for instantiated attributes.
     """
     problem_instance = utils_electric.ProblemInstance()
     sls = optim_electric.ElectricSls(
         problem_instance.costs, problem_instance.time,
         problem_instance.energy, problem_instance.requests,
         problem_instance.aircraft, problem_instance.skyports,
         problem_instance.time_compatible, problem_instance.gamma_s,
         problem_instance.gamma_f, problem_instance.pe,
         problem_instance.delta, problem_instance.lbda_f,
         problem_instance.min_soc, problem_instance.T)
     self.assertIsInstance(sls.empty_sol, np.ndarray)
     self.assertTrue(np.sum(sls.empty_sol) == 0)
     self.assertTrue(np.sum(sls.H) == problem_instance.aircraft.shape[0])
     self.assertTrue(
         np.sum(sls.len_encod) == 2 * (problem_instance.requests.shape[0] -
                                       problem_instance.aircraft.shape[0]))
Ejemplo n.º 7
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    def test_init_heuristic(self):
        """Test the init heuristic provide an encoding of the right format
        """
        problem_instance = utils_electric.ProblemInstance()
        sls = optim_electric.ElectricSls(
            problem_instance.costs, problem_instance.time,
            problem_instance.energy, problem_instance.requests,
            problem_instance.aircraft, problem_instance.skyports,
            problem_instance.time_compatible, problem_instance.gamma_s,
            problem_instance.gamma_f, problem_instance.pe,
            problem_instance.delta, problem_instance.lbda_f,
            problem_instance.min_soc, problem_instance.T)

        np.random.seed(6)
        init_heuri = sls.init_heuristic_random()
        self.assertIsInstance(init_heuri, np.ndarray)
        self.assertTrue(
            len(init_heuri) == (problem_instance.requests.shape[0] -
                                problem_instance.aircraft.shape[0]) * 2 *
            problem_instance.aircraft.shape[0])
Ejemplo n.º 8
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    def test_cost_computation_aircraft(self):
        """Test for the function that computes the cost for one aircraft in a solution.
           Check for :
                - The output format and type
                - Violations should be positive (costs may be negative)
                - Empty sol should have 0 cost

        """
        problem_instance = utils_electric.ProblemInstance()
        sls = optim_electric.ElectricSls(
            problem_instance.costs, problem_instance.time,
            problem_instance.energy, problem_instance.requests,
            problem_instance.aircraft, problem_instance.skyports,
            problem_instance.time_compatible, problem_instance.gamma_s,
            problem_instance.gamma_f, problem_instance.pe,
            problem_instance.delta, problem_instance.lbda_f,
            problem_instance.min_soc, problem_instance.T)

        init_heuri = sls.init_heuristic_random()
        c = sls.trace_cost_heli(init_heuri, 0)
        c_empty = sls.trace_cost_heli(sls.empty_sol, 0)
        self.assertIsInstance(c, list)
        self.assertTrue(c[1] >= 0)
        self.assertTrue(c_empty[0] == c_empty[1] == 0)
 def test_infra(self):
     """Test for the simulation of infrastructure"""
     problem_instance = utils_electric.ProblemInstance()
     self.assertIsInstance(problem_instance.costs, np.ndarray)