def main(argv: List[str]): run_using_positional_cli_args(update, argv)
def main(argv: List[str]): run_using_positional_cli_args(read_legacy, argv)
if subbat == 1: total_power -= sum(min(p, 0) for p in storage_powers) else: total_power -= sum(storage_powers) get_inverter_value_store(1).set( InverterState(counter=total_energy, power=min(0, total_power), currents=total_currents)) def update_solar_edge_cli(ipaddress: str, slave_id0: str, slave_id1: str, slave_id2: str, slave_id3: str, batwrsame: int, extprodakt: int, zweiterspeicher: int, subbat: int): log.debug("Beginning update") with ModbusClient(ipaddress) as client: update_solar_edge( client, list( map( int, filter(lambda id: id.isnumeric(), [slave_id0, slave_id1, slave_id2, slave_id3]))), batwrsame, extprodakt, zweiterspeicher, subbat) log.debug("Update completed successfully") if __name__ == '__main__': setup_logging_stdout() run_using_positional_cli_args(update_solar_edge_cli)
# x-Achse) def energy_function(seconds): return .5 * gradient * seconds**2 + power_low * seconds energy_total = energy_function(seconds_since_previous) log.MainLogger().debug("simcount Gesamtenergie im Zeitintervall: " + str(energy_total)) if power_low < 0 < power_high: # Berechnung der Fläche im vierten Quadranten -> Export power_zero_seconds = -power_low / gradient energy_exported = energy_function(power_zero_seconds) log.MainLogger().debug( "simcount exportierte Energie im Zeitintervall: " + str(energy_exported)) # Betragsmäßige Gesamtfläche: oberhalb der x-Achse = Import, unterhalb der x-Achse: Export return energy_total - energy_exported, energy_exported * -1 return (energy_total, 0) if energy_total >= 0 else (0, -energy_total) except Exception as e: process_error(e) def run_cli(power_present: int, prefix: str): SimCountLegacy().sim_count(power_present=power_present, prefix=prefix) if __name__ == "__main__": try: run_using_positional_cli_args(run_cli) except Exception as e: process_error(e)
def main(argv: List[str]): run_using_positional_cli_args( { "bat": read_legacy_bat, "inverter": read_legacy_inverter }, argv)