def scenario(request):
scenario = Scenario.objects.all()[0]
current_neighborhood_name = scenario.current_neighborhood
current_neighborhood = Neighborhood.objects.get(neighborhood_name=current_neighborhood_name)
energy_price_data = []
for energy_price in current_neighborhood.energyprice_set.all():
energy_price_data.append([(float(energy_price.time) - 1.0) / 4.0, float(energy_price.price)*1000.0])
solar_data = []
wind_data = []
for available_energy in current_neighborhood.availableenergy_set.all():
solar_data.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.amount)/1000.0])
wind_data.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.wind)/1000.0])
available_energy_list = [{"name": "Verwachte zonne-energie", "data": solar_data},
{"name": "Verwachte windenergie", "data": wind_data}]
consumption_list = []
for house in current_neighborhood.house_set.all():
name = house.house_name
data = map(lambda x: [x[0], x[1]/1000.0], utilities.get_consumption(house))
consumption_list.append({"name": name, "data": data})
# consumption_list.append({"name": "Volledige buurt", "data": utilities.get_consumption(), "linewidth": 5})
if not current_neighborhood_name.endswith("zonder vraagzijdesturing"):
neighborhood_geen_sturing = Neighborhood.objects.get(
neighborhood_name=current_neighborhood_name + " zonder vraagzijdesturing")
consumption_list.append({"name": "Zonder vraagzijdesturing",
"data": map(lambda x: [x[0], x[1]/1000.0], utilities.get_consumption(neighborhood=neighborhood_geen_sturing))})
else:
neighborhood_met_sturing = Neighborhood.objects.get(neighborhood_name=current_neighborhood_name[0:7])
consumption_list.append({"name": "Met vraagzijdesturing",
"data": map(lambda x: [x[0], x[1]/1000.0], utilities.get_consumption(neighborhood=neighborhood_met_sturing))})
wrong_neighborhood_list = Neighborhood.objects.all()
store = wrong_neighborhood_list.filter(neighborhood_name='Store')[0]
een_zonder = wrong_neighborhood_list.filter(neighborhood_name='Buurt 1 zonder vraagzijdesturing')[0]
twee_zonder = wrong_neighborhood_list.filter(neighborhood_name='Buurt 2 zonder vraagzijdesturing')[0]
neighborhood_list = []
for x in wrong_neighborhood_list:
if x.neighborhood_name != store.neighborhood_name \
and x.neighborhood_name != een_zonder.neighborhood_name \
and x.neighborhood_name != twee_zonder.neighborhood_name:
neighborhood_list += [x]
print neighborhood_list
return render(request, 'smartgrid/post_login/scenario.html',
{'current_neighborhood_name': current_neighborhood_name,
'energy_price_data': energy_price_data,
'available_energy_list': available_energy_list,
'consumption_list': consumption_list,
'neighborhood_list': neighborhood_list})
def resultaat(request):
eff_buurt = Neighborhood.objects.get(neighborhood_name="Buurt 1")
eff_buurt_zonder = Neighborhood.objects.get(neighborhood_name="Buurt 1 zonder vraagzijdesturing")
ineff_buurt = Neighborhood.objects.get(neighborhood_name="Buurt 2")
ineff_buurt_zonder = Neighborhood.objects.get(neighborhood_name="Buurt 2 zonder vraagzijdesturing")
energy_price_data_1 = []
for energy_price in eff_buurt.energyprice_set.all():
energy_price_data_1.append([(float(energy_price.time) - 1.0) / 4.0, float(energy_price.price) * 1000])
solar_data_1 = []
wind_data_1 = []
for available_energy in eff_buurt.availableenergy_set.all():
solar_data_1.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.amount)/1000.0])
wind_data_1.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.wind)/1000.0])
available_energy_list_1 = [{"name": "Beschikbare zonne-energie", "data": solar_data_1, "color": "#8A3528"},
{"name": "Beschikbare windenergie", "data": wind_data_1, "color": "#C54C3A"}]
energy_price_data_2 = []
for energy_price in eff_buurt.energyprice_set.all():
energy_price_data_2.append([(float(energy_price.time) - 1.0) / 4.0, float(energy_price.price)])
solar_data_2 = []
wind_data_2 = []
for available_energy in ineff_buurt.availableenergy_set.all():
solar_data_2.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.amount)])
wind_data_2.append([(float(available_energy.time) - 1.0) / 4.0, float(available_energy.wind)])
available_energy_list_2 = [{"name": "Beschikbare zonne-energie", "data": solar_data_2, "color": "#8A3528"},
{"name": "Beschikbare windenergie", "data": wind_data_2, "color": "#C54C3A"}]
consumption_list_1 = []
consumption_list_1.append({"name": "Met vraagzijdesturing",
"data": map(lambda x: [x[0], x[1] / 1000.0],
utilities.get_consumption(neighborhood=eff_buurt))})
consumption_list_1.append({"name": "Zonder vraagzijdesturing",
"data": map(lambda x: [x[0], x[1] / 1000.0],
utilities.get_consumption(neighborhood=eff_buurt_zonder))})
consumption_list_2 = []
consumption_list_2.append({"name": "Met vraagzijdesturing",
"data": map(lambda x: [x[0], x[1] / 1000.0],
utilities.get_consumption(neighborhood=ineff_buurt))})
consumption_list_2.append({"name": "Zonder vraagzijdesturing",
"data": map(lambda x: [x[0], x[1] / 1000.0],
utilities.get_consumption(neighborhood=ineff_buurt_zonder))})
return render(request, 'smartgrid/info/resultaat.html',
{'consumption_list_1': consumption_list_1,
'consumption_list_2': consumption_list_2,
'available_energy_list_1': available_energy_list_1,
'available_energy_list_2': available_energy_list_2,
'energy_price_data_1': energy_price_data_1,
'energy_price_data_2': energy_price_data_2})
