Merge branch 'main' of https://gitlab.rc.uab.edu/hamidc/cs-499

2ffad9cc · francoisdillinger · f00271eb · e304dbcc · 2ffad9cc
Commit 2ffad9cc authored 2 years ago by francoisdillinger
--- a/backend/database/CS_499_backend.py
+++ b/backend/database/CS_499_backend.py
@@ -25,14 +25,14 @@ time_stamp=0
 for i in range(0,NUM_WEEKS):
    for j in range(0,7):
        #door_opens = 0
-       #window_opens = 0
+       # window_opens=0
        if j < 5:
            door_opens = random.randint(14,22)
            window_open= random.randint(1,5)
        else:
            door_opens = random.randint(26,36)
            window_open= random.randint(7,12)
-        door_minutes = door_opens *30/60
+        door_minutes = door_opens*30/60
        window_minutes = window_open *45/60
        Door_Window_History[time_stamp] = Door_Window(WORKWEEK[j], door_opens, door_minutes, window_open, window_minutes)
        time_stamp += 1
@@ -42,7 +42,7 @@ for i in range(0,NUM_WEEKS):
 class Appliance_1:
-    def __init__(self,day,micro_pwr,stove_pwr,oven_pwr,Lrtv_pwr,Brtv_pwr,fridge_pwr,lights_pwr,micro_ct,stove_ct,oven_ct,Lrtv_ct,Brtv_ct,fridge_ct,lights_ct):
+    def __init__(self,day,micro_pwr,stove_pwr,oven_pwr,Lrtv_pwr,Brtv_pwr,fridge_pwr,lights_pwr,micro_ct,stove_ct,oven_ct,Lrtv_ct,Brtv_ct,fridge_ct,lights_ct,test_case_pwr,test_case_2pwr,test_case_1_ct,test_case_2_ct):
        self.day=day
        self.micro_pwr=micro_pwr
        self.stove_pwr=stove_pwr
@@ -58,11 +58,15 @@ class Appliance_1:
        self.fridge_ct=fridge_ct
        self.lights_pwr=lights_pwr
        self.lights_ct=lights_ct
+        self.test_case_pwr=test_case_pwr
+        self.test_case_2pwr=test_case_2pwr
+        self.test_case_1_ct=test_case_1_ct
+        self.test_case_2_ct=test_case_2_ct
 App1_History=dict()
 time_stamp2=1
 Fridge=0
-for i in range(0, NUM_WEEKS):
+for i in range(0,NUM_WEEKS):
    for j in range(0,7):
        Fridge += 1440
        if j<5:
@@ -81,6 +85,9 @@ for i in range(0, NUM_WEEKS):
            lights=random.randint(55,95)
        #Watts Ussage
+        Watts_testcase_1=((BedroomTV+480)/60)*100
+        Watts_testcase_2=((Living_roomTV+360)/60)*100
        Watts_micro=(Microwave/60)*1100
        Watts_stove=(Stove/60)*3500
        Watts_oven=(Oven/60)*4000/60
@@ -88,7 +95,11 @@ for i in range(0, NUM_WEEKS):
        Watts_Brtv=(BedroomTV/60)*100
        Watts_Fridge=(Fridge/60)*150
        Watts_Lights=(lights*random.randint(4,8))
        #Cost Calculations
+        Cost_testcase_1=(((Watts_testcase_1)/1000)*0.12)/100
+        Cost_testcase_2=(((Watts_testcase_2)/1000)*0.12)/100
        Cost_micro=((Watts_micro/1000)*0.12)/100
        Cost_stove=((Watts_stove/1000)*0.12)/100
        Cost_oven=((Watts_oven/1000)*0.12)/100
@@ -96,7 +107,7 @@ for i in range(0, NUM_WEEKS):
        Cost_Brtv=((Watts_Brtv/1000)*0.12)/100
        Cost_Fridge=((Watts_Fridge/1000)*0.12)/100   
        Cost_lights=((Watts_Lights/1000)*0.12 )/100  
-        App1_History[time_stamp2] = Appliance_1(WORKWEEK[j],Watts_micro,Watts_stove,Watts_oven,Watts_Lrtv,Watts_Brtv,Watts_Fridge,Watts_Lights,Cost_micro,Cost_stove,Cost_oven,Cost_Lrtv,Cost_Brtv,Cost_Fridge,Cost_lights)
+        App1_History[time_stamp2] = Appliance_1(WORKWEEK[j],Watts_micro,Watts_stove,Watts_oven,Watts_Lrtv,Watts_Brtv,Watts_Fridge,Watts_Lights,Cost_micro,Cost_stove,Cost_oven,Cost_Lrtv,Cost_Brtv,Cost_Fridge,Cost_lights,Watts_testcase_1,Watts_testcase_2,Cost_testcase_1,Cost_testcase_2)
        time_stamp2 += 1
 monthly_cost1_JAN=0
@@ -105,6 +116,10 @@ monthly_cost1_FEB=0
 monthly_power1_FEB=0
 monthly_cost1_MAR=0
 monthly_power1_MAR=0
+TC_pwr_MAR_lrtv=0
+TC_pwr_MAR_brtv=0
+TC_ct_MAR_lrtv=0
+TC_ct_MAR_brtv=0
 # print("######################################################  TOTAL APP1 HISTORY FOR 77  DAYS  ###################################################### \n")
 for i in App1_History:
@@ -117,6 +132,10 @@ for i in App1_History:
    if i>61:
        monthly_power1_MAR += App1_History[i].micro_pwr + App1_History[i].stove_pwr + App1_History[i].oven_pwr + App1_History[i].Lrtv_pwr + App1_History[i].Brtv_pwr + App1_History[i].fridge_pwr +App1_History[i].lights_pwr
        monthly_cost1_MAR += App1_History[i].micro_ct + App1_History[i].stove_ct + App1_History[i].oven_ct + App1_History[i].Lrtv_ct + App1_History[i].Brtv_ct + App1_History[i].fridge_ct + App1_History[i].lights_ct
+        TC_pwr_MAR_lrtv += App1_History[i].micro_pwr + App1_History[i].stove_pwr + App1_History[i].oven_pwr + App1_History[i].Lrtv_pwr + App1_History[i].Brtv_pwr + App1_History[i].fridge_pwr +App1_History[i].lights_pwr + App1_History[i].test_case_pwr
+        TC_pwr_MAR_brtv += App1_History[i].micro_pwr + App1_History[i].stove_pwr + App1_History[i].oven_pwr + App1_History[i].Lrtv_pwr + App1_History[i].Brtv_pwr + App1_History[i].fridge_pwr +App1_History[i].lights_pwr + App1_History[i].test_case_2pwr
+        TC_ct_MAR_lrtv += App1_History[i].micro_ct + App1_History[i].stove_ct + App1_History[i].oven_ct + App1_History[i].Lrtv_ct + App1_History[i].Brtv_ct + App1_History[i].fridge_ct + App1_History[i].lights_ct + App1_History[i].test_case_1_ct
+        TC_ct_MAR_brtv += App1_History[i].micro_ct + App1_History[i].stove_ct + App1_History[i].oven_ct + App1_History[i].Lrtv_ct + App1_History[i].Brtv_ct + App1_History[i].fridge_ct + App1_History[i].lights_ct + App1_History[i].test_case_2_ct
    #print(i,App1_History[i].day,App1_History[i].micro_pwr,App1_History[i].stove_pwr,App1_History[i].oven_pwr,App1_History[i].Lrtv_pwr,App1_History[i].Brtv_pwr,App1_History[i].micro_ct,App1_History[i].stove_ct,App1_History[i].oven_ct,App1_History[i].Lrtv_ct,App1_History[i].Brtv_ct)
 # print( "_ - _ - _ - _  Power used for each Month  _ - _ - _ - _ \n")
 # print( "Jan APP1 watts used : ",monthly_power1_JAN )
@@ -133,7 +152,7 @@ for i in App1_History:
 class Appliance_with_Water:
-    def __init__(self,day,Water_Heat_pwr,DishWasher_pwr,Clothes_Wash_pwr,Clothes_dry_pwr,bath_fans_pwr,Water_Heat_ug,Bath_water_ug,Shower_water_ug,DishWasher_ug,Clothes_Wash_ug,Water_Heat_ct,DishWasher_ct,Clothes_Wash_ct,Clothes_dry_ct,bath_fans_ct,Water_ct,bath,shower):
+    def __init__(self,day,Water_Heat_pwr,DishWasher_pwr,Clothes_Wash_pwr,Clothes_dry_pwr,bath_fans_pwr,Water_Heat_ug,Bath_water_ug,Shower_water_ug,DishWasher_ug,Clothes_Wash_ug,Water_Heat_ct,DishWasher_ct,Clothes_Wash_ct,Clothes_dry_ct,bath_fans_ct,Water_ct,bath,shower,test_case_shower_ug,test_case_shower_pwr,test_case_shower_ct,test_case_heater_ct):
        self.day=day
        self.Water_Heat_pwr=Water_Heat_pwr
        self.DishWasher_pwr=DishWasher_pwr
@@ -153,6 +172,10 @@ class Appliance_with_Water:
        self.Water_ct=Water_ct
        self.bath=bath
        self.shower=shower
+        self.test_case_shower_ug=test_case_shower_ug
+        self.test_case_shower_pwr=test_case_shower_pwr
+        self.test_case_shower_ct=test_case_shower_ct
+        self.test_case_heater_ct= test_case_heater_ct
 App2_History=dict()
 time_stamp3=0
@@ -173,35 +196,57 @@ for i in range(0,NUM_WEEKS):
        Clths_water=20*Clths_wash_dry_run
        Dish_washer_water=6*Dish_washer_run
+        test_water=10
        # still have to apply floor to it ## hot water
+        test_hot_water=math.ceil(test_water*0.65)
        Bath_hot=math.ceil(Bath_water*0.65)
        Shower_hot=math.ceil(Shower_water*0.65)
        Clths_wash_hot=math.ceil(Clths_water*0.85)
        # hot water heater ## use ceil round up
        Hot_water=(Bath_hot+Shower_hot+Clths_wash_hot)
        Hot_water_time=Hot_water*4
+        test_time_1=(Bath_hot+Shower_hot+Clths_wash_hot+test_hot_water)
+        test_time=test_time_1*4
        # Watts used
        Hot_water_pwr=(Hot_water_time/60)*4500
        Dish_washer_pwr=((Dish_washer_run*45)/60)*1800
        Clothes_wash_pwr=((Clths_wash_dry_run*30)/60)*500
        Clothes_dry_pwr=((Clths_wash_dry_run*30)/60)*3000
        Bath_Fans_pwr=((Bath*45)/60)*30
+        test_hot_water_pwr=(test_time/60)*4500
        # Cost
        Hot_water_ct=((Hot_water_pwr/1000)*0.12)/100
        Dish_washer_ct=((Dish_washer_pwr/1000)*0.12)/100
        Clothes_wash_ct=((Clothes_wash_pwr/1000)*0.12)/100
        Clothes_dry_ct=((Clothes_dry_pwr/1000)*0.12)/100
        Bath_Fans_ct=((Bath_Fans_pwr/1000)*0.12)/100
+        test_hot_ct=(((test_hot_water_pwr)/1000)*0.12)/100
        # Water Used / Cost
+        test_case_total_ug=Bath_water+Shower_water+Clths_water+Dish_washer_water
+        test_case_feet=test_case_total_ug/7.48
+        test_case_cost=test_case_feet*(2.52/100)
        Water_Total=Bath_water+Shower_water+Clths_water+Dish_washer_water
        Water_Feet=Water_Total/7.48
        Water_cost=Water_Feet*(2.52/100)
-        # Water_Heat_pwr, DishWasher_pwr, Clothes_Wash_pwr, Clothes_dry_pwr, bath_fan_pwr, Water_Heat_ug, DishWasher_ug, Clothes_Wash_ug, Water_Heat_ct, DishWasher_ct, Clothes_Wash_ct, Clothes_dry_ct, bath_fan_ct, bath, shower
+        #Water_Heat_pwr,DishWasher_pwr,Clothes_Wash_pwr,Clothes_dry_pwr,bath_fan_pwr,Water_Heat_ug,DishWasher_ug,Clothes_Wash_ug,Water_Heat_ct,DishWasher_ct,Clothes_Wash_ct,Clothes_dry_ct,bath_fan_ct,bath,shower
-        App2_History[time_stamp3] = Appliance_with_Water(WORKWEEK[j],Hot_water_pwr,Dish_washer_pwr,Clothes_wash_pwr,Clothes_dry_pwr,Bath_Fans_pwr,Hot_water,Bath_water,Shower_water,Dish_washer_water,Clths_water,Hot_water_ct,Dish_washer_ct,Clothes_wash_ct,Clothes_dry_ct,Bath_Fans_ct,Water_cost,Bath,Shower)
+        App2_History[time_stamp3] = Appliance_with_Water(WORKWEEK[j],Hot_water_pwr,Dish_washer_pwr,Clothes_wash_pwr,Clothes_dry_pwr,Bath_Fans_pwr,Hot_water,Bath_water,Shower_water,Dish_washer_water,Clths_water,Hot_water_ct,Dish_washer_ct,Clothes_wash_ct,Clothes_dry_ct,Bath_Fans_ct,Water_cost,Bath,Shower,test_water, test_hot_water_pwr ,test_case_cost,test_hot_ct)
-        time_stamp3 += 1
+        time_stamp3+=1
 monthly_cost2_JAN=0
 monthly_power2_JAN=0
@@ -226,6 +271,10 @@ for i in App2_History:
        monthly_cost2_MAR+= App2_History[i].Water_Heat_ct + App2_History[i].DishWasher_ct + App2_History[i].Clothes_Wash_ct + App2_History[i].Clothes_dry_ct +App2_History[i].Water_ct + App2_History[i].bath_fans_ct
        monthly_power2_MAR+= App2_History[i].Water_Heat_pwr+ App2_History[i].DishWasher_pwr + App2_History[i].Clothes_Wash_pwr + App2_History[i].Clothes_dry_pwr + App2_History[i].bath_fans_pwr
        monthly_water_usg_MAR+= App2_History[i].Bath_water_ug + App2_History[i].Shower_water_ug + App2_History[i].DishWasher_ug+ App2_History[i].Clothes_Wash_ug
+        TC_shower_cost2_MAR+= App2_History[i].Water_Heat_ct + App2_History[i].DishWasher_ct + App2_History[i].Clothes_Wash_ct + App2_History[i].Clothes_dry_ct + App2_History[i].test_case_shower_ct + App2_History[i].bath_fans_ct+ App2_History[i].test_case_heater_ct
+        TC_shower_power2_MAR+= App2_History[i].DishWasher_pwr + App2_History[i].Clothes_Wash_pwr + App2_History[i].Clothes_dry_pwr + App2_History[i].bath_fans_pwr+ App2_History[i].test_case_shower_pwr
+        TC_shower_water_usg_MAR+= App2_History[i].Bath_water_ug + App2_History[i].Shower_water_ug + App2_History[i].DishWasher_ug+ App2_History[i].Clothes_Wash_ug+App2_History[i].test_case_shower_ug
    #print(i,App2_History[i].day,App2_History[i].Water_Heat_pwr,App2_History[i].DishWasher_pwr,App2_History[i].Clothes_Wash_pwr,App2_History[i].Clothes_dry_pwr,App2_History[i].bath_fans_pwr,App2_History[i].Water_Heat_ug,App2_History[i].Bath_water_ug,App2_History[i].Shower_water_ug,App2_History[i].DishWasher_ug,App2_History[i].Clothes_Wash_ug,App2_History[i].Water_Heat_ct,App2_History[i].DishWasher_ct,App2_History[i].Clothes_Wash_ct,App2_History[i].Clothes_dry_ct,App2_History[i].bath_fans_ct,App2_History[i].Water_ct,App2_History[i].bath,App2_History[i].shower)
 # print( "_ - _ - _ - _  Power used for each Month  _ - _ - _ - _ \n")
 # print( "Jan APP2 watts used : ",monthly_power2_JAN )
@@ -244,9 +293,8 @@ for i in App2_History:
 # weather api to get temp from history
 # Used this to help me understand and gather API.data: https://pypi.org/project/requests/ and https://realpython.com/api-integration-in-python/
+class Temprature_data:
-class Temperature_data :
+    def __init__(self,temp_power,temp_cost ):
-    def __init__(self,temp_power,temp_cost):
        self.temp_power=temp_power
        self.temp_cost=temp_cost
@@ -254,16 +302,18 @@ class Temperature_data :
 response_API = requests.get("https://archive-api.open-meteo.com/v1/archive?latitude=33.52&longitude=-86.80&start_date=2023-01-01&end_date=2023-03-12&hourly=temperature_2m&timezone=America%2FChicago&temperature_unit=fahrenheit")
 data = response_API.text
-parse_temp = json.loads(data)
+parse_temp=json.loads(data)
 hourly_pull = parse_temp['hourly']
-dict_pull = hourly_pull["temperature_2m"]
+dict_pull=hourly_pull["temperature_2m"]
-App3_History = dict()
-time_stamp4 = 0
+App3_History=dict()
+time_stamp4=0
 daily_arr=np.array_split(dict_pull,77)
 for i in range(0,len(daily_arr)):
    daily_arr[i]
    d_t=Door_Window_History[i].Door_time
@@ -284,10 +334,10 @@ for i in range(0,len(daily_arr)):
    min_op=sum*60+(d_t+w_t)
    watts_per_day=(min_op)*3500
    ct_per_day=((watts_per_day/1000)*0.12)/100
-    App3_History[time_stamp4]=Temperature_data (watts_per_day,ct_per_day)
+    App3_History[time_stamp4]=Temprature_data(watts_per_day,ct_per_day)
    time_stamp4+=1
-    # print(ct_per_day)
+    #print(ct_per_day)
-    # print(watts_per_day)
+    #print(watts_per_day)
    # print("what i is",i)
    # print("timestamp",i)