def socefficiency_value(): ''' calculate total social efficiency ''' dict_temp = base.get_dict_block_area() dict_socefficiency_value = {} dict_block_park = get_dict_block_park() for key in dict_block_park: dict_socefficiency_value[key] = dict_block_park[key] \ / dict_temp[key] #print (dict_socefficiency_value) return dict_socefficiency_value
averageV = sumV / num listC.append(averageC) listL.append(averageL) listV.append(averageV) #print(listC) #print(listL) #print(listV) #average of distance ogf park C_average = sum(listC) / len(listC) #average of coverage of greenland molecule = 0 denominator = 0 mo_dict = greenland.get_dict_block_greenland() de_dict = base.get_dict_block_area() #print (mo_dict) #print (de_dict) for item in mo_dict: #print (mo_dict[item]) molecule += mo_dict[item] #print ('^^^^^^^^^^^^^^^') #print (molecule) for item in de_dict: #print (de_dict[item]) denominator += de_dict[item] #print ('***************') #print (denominator) L_average = molecule / denominator / 1000000 * 100 #print(L_average)
averageV=sumV/num listC.append(averageC) listL.append(averageL) listV.append(averageV) #print(listC) #print(listL) #print(listV) #average of distance ogf park C_average = sum(listC)/len(listC) #average of coverage of greenland molecule= 0 denominator= 0 mo_dict = greenland.get_dict_block_greenland() de_dict = base.get_dict_block_area() #print (mo_dict) #print (de_dict) for item in mo_dict: #print (mo_dict[item]) molecule += mo_dict[item] #print ('^^^^^^^^^^^^^^^') #print (molecule) for item in de_dict: #print (de_dict[item]) denominator += de_dict[item] #print ('***************') #print (denominator) L_average = molecule / denominator /1000000 * 100 #print(L_average)