def runCalculations(self):
input_vals = self.validateLimitVals()
if len(input_vals) == 4:
ks, kr, gs, gr = input_vals
test_motor = Motor()
motor_calc = MotorCalc(test_motor,
limit=0,
kls=ks,
klr=kr,
gs=gs,
gr=gr)
motor_calc.calculate()
motor_results = MotorResults(motor_calc)
self.results_tab = CalcResultsWidget(motor_results)
self.results_tab.show()
print(motor_results)
else:
print("Nie weszło!")
def run(self):
step_count = 10
step_val = int((self.limit_upper - self.limit_lower) / step_count) or 1
step_range = range(self.limit_lower, self.limit_upper + 1, step_val)
for i in step_range:
motor_calc = MotorCalc(self.motor, limit=i)
motor_calc.calculate()
Ps, PAl, Pss, Pp = motor_calc.get_motor_losses()
self.__Ps.append(Ps)
self.__PAl.append(PAl)
self.__Pss.append(Pss)
self.__Pp.append(Pp)
self.__limits.append(i)
if i == step_range[len(step_range) - 1]:
self._signal.emit(100)
print("koniec!")
else:
val_to_send = (i / step_range[len(step_range) - 1]) * 100
self._signal.emit(val_to_send)
print("wysyłanie ", val_to_send)
print(self.__limits)
"value" REAL NOT NULL,
"result_ID" INTEGER,
PRIMARY KEY("ID" AUTOINCREMENT),
FOREIGN KEY("result_ID") REFERENCES "MotorResults" ("ID"))
'''
db.execute(stmt)
# rotor_fluxes
stmt = '''CREATE TABLE "rotor_fluxes" (
"ID" INTEGER,
"order" INTEGER,
"value" REAL NOT NULL,
"result_ID" INTEGER,
PRIMARY KEY("ID" AUTOINCREMENT),
FOREIGN KEY("result_ID") REFERENCES "MotorResults" ("ID"))
'''
db.execute(stmt)
return True
if __name__ == "__main__":
from data_transfer.db_data_transfer import DBDataTransfer
motor = Motor()
motorCalc = MotorCalc(motor, limit=5)
motorCalc.calculate()
id_added = DBDataTransfer.export_data(motorCalc)
losses_Pss, losses_Pp, losses_Ps, losses_PAl = DBDataTransfer.import_data(
id_added)
print(losses_Pss)
:return: str
"""
if filename is None:
raise LoadFileError("Filename is empty!")
with open(filename, 'r') as f:
f_cont = f.read()
return f_cont
def __str__(self):
return self.__motor_calc.__str__()
if __name__ == "__main__":
m = Motor()
m_calc = MotorCalc(m, limit=15)
m_calc.calculate()
m_res = MotorResults(m_calc)
m_res.save_to_json("test_3")
# limit, Ps, PAl, Pss, Pp, stator_losses, rotor_losses = \
# loaded_json = m_res.load_from_json(r'json/testowy_1.json')
# loaded_json = OrderedDict(loaded_json)
# for k, v in loaded_json.items():
# print(k, v)
# print(m_res.load_from_file(r'results/results_25-01-21 21.20.29.txt').splitlines())
# m_res.save_to_DB()
# m_res.save_to_DB()