model_data.append(row)
#print infor about number of scenarios
if scenario % 200 ==0:
number_of_EVs +=5
#check=save_model(model_data,list_row,model_file, data_file)
#model_data.clear()
#list_row.clear()
#progress="Saved Scenarios: "+str(scenario) + " Number of EVs: "+ str(number_of_EVs-5) +"\n"
#save_progress(progress)
# print("solved scenarios:",scenario)
if scenario % 10 ==0:
#progress="solved Scenarios: "+str(scenario) +"\n"
check=save_model(model_data,list_row,model_file, data_file)
model_data.clear()
list_row.clear()
progress="Saved Scenarios: "+str(scenario) + " Number of EVs: "+ str(number_of_EVs-5) +"\n"
save_progress(progress)
# print("solved scenarios: ",scenario)
# gant_chart(model)
"""
All the scenarios executed succesfully
Storing data and results
"""
# print(">>>>>>>>> time taken:{:0.3f} <<<<<<<".format(time.time()-start_time))
#Count number of chargers of each type in the scenario before solving the model
available_dict[installed_chargers[j - 1]] += 1
#Count the number of installed chargers after solving model
if model.q[j] == 1:
chargers_dict[installed_chargers[j - 1]] += 1
for i in Charger_Type:
row.append(available_dict[i])
row.append(chargers_dict[i])
model_data.append(row)
#print infor about number of scenarios
if scenario % 10 == 0:
number_of_EVs += 5
check = save_model(model_data, list_data, file_model, file_data)
if check:
model_data.clear()
list_data.clear()
print("Saved data for scenario:", scenario)
# print("solved scenarios:",scenario)
if scenario % 10 == 0:
print("solved scenarios:", scenario)
# gant_chart(model)
"""
All the scenarios executed succesfully
Storing data and results
"""