def get_action_to_set(self): line_status = self.get_line_status() line_status = 2 * line_status - 1 line_status = line_status.astype(dt_int) topo_vect = self.get_topo_vect() self.runpf() prod_p, _, prod_v = self.generators_info() load_p, load_q, _ = self.loads_info() # prod_p, prod_q, prod_v = self.init_pp_backend._gens_info() # load_p, load_q, load_v = self.init_pp_backend._loads_info() complete_action_class = CompleteAction.init_grid(self) set_me = complete_action_class() set_me.update({ "set_line_status": 1 * line_status, "set_bus": 1 * topo_vect }) injs = { "prod_p": prod_p, "prod_v": prod_v, "load_p": load_p, "load_q": load_q } set_me.update({"injection": injs}) return set_me
def get_action_to_set(self): line_status = self.get_line_status() line_status = 2 * line_status - 1 line_status = line_status.astype(np.int) topo_vect = self.get_topo_vect() prod_p, _, prod_v = self.generators_info() load_p, load_q, _ = self.loads_info() set_me = CompleteAction(self) set_me.update({"set_line_status": line_status, "set_bus": topo_vect}) #injs = {"prod_p": prod_p, "prod_v": prod_v, # "load_p": load_p, "load_q": load_q}} # set_me.update({"injection": injs}) return set_me
def get_action_to_set(self): line_status = self.get_line_status() line_status = 2 * line_status - 1 line_status = line_status.astype(dt_int) topo_vect = self.get_topo_vect() prod_p, _, prod_v = self.generators_info() load_p, load_q, _ = self.loads_info() complete_action_class = CompleteAction.init_grid(self) set_me = complete_action_class(self) set_me.update({"set_line_status": line_status, "set_bus": topo_vect}) return set_me
def _get_action_to_set_deprecated(self): warnings.warn( "DEPRECATION: grid2op <=1.4 is not well supported with lightsim2grid. Lots of bugs have been" "fixed since then. Please upgrade to grid2op >= 1.5", DeprecationWarning) line_status = self.get_line_status() line_status = 2 * line_status - 1 line_status = line_status.astype(dt_int) topo_vect = self.get_topo_vect() prod_p, _, prod_v = self.generators_info() load_p, load_q, _ = self.loads_info() complete_action_class = CompleteAction.init_grid(self) set_me = complete_action_class() set_me.update({"set_line_status": line_status, "set_bus": topo_vect}) return set_me
def __init__( self, path_grid_json, # complete path where the grid is represented as a json file name="dc_approx", is_dc=True, attr_x=("prod_p", "prod_v", "load_p", "load_q", "topo_vect"), # input that will be given to the proxy attr_y=("a_or", "a_ex", "p_or", "p_ex", "q_or", "q_ex", "prod_q", "load_v", "v_or", "v_ex"), # output that we want the proxy to predict ): BaseProxy.__init__(self, name=name, max_row_training_set=1, eval_batch_size=1, attr_x=attr_x, attr_y=attr_y) # datasets self._supported_output = { "a_or", "a_ex", "p_or", "p_ex", "q_or", "q_ex", "prod_q", "load_v", "v_or", "v_ex" } self.is_dc = is_dc for el in ("prod_p", "prod_v", "load_p", "load_q", "topo_vect"): if not el in self.attr_x: raise RuntimeError( f"The DC approximation need the variable \"{el}\" to be computed." ) for el in self.attr_y: if not el in self._supported_output: raise RuntimeError( f"This solver cannot output the variable \"{el}\" at the moment. " f"Only possible outputs are \"{self._supported_output}\".") # specific part to dc model self.solver = PandaPowerBackend() self.solver.set_env_name(self.name) self.solver.load_grid( path_grid_json) # the real powergrid of the environment self.solver.assert_grid_correct() self._bk_act_class = _BackendAction.init_grid(self.solver) self._act_class = CompleteAction.init_grid(self.solver) # internal variables (speed optimisation) self._indx_var = {} for el in ("prod_p", "prod_v", "load_p", "load_q", "topo_vect"): self._indx_var[el] = self.attr_x.index(el)