import gradio as gr
def process_cal(production,f_t):
    actual_inlet = 40
    intial_temp = 40
    final_temp = f_t
    water = 2*production
    step_time = (final_temp - intial_temp)//2
    steam = 6
    enthalpy = 494
    hot_drain = 0
    cold_drain = 0
    heat_water = water*1*(final_temp-intial_temp)
    heat_fabric = production*0.4*(final_temp-intial_temp)
    heat_radition = 10*10*(final_temp-30)*step_time/60
    total_heat = heat_water + heat_fabric + heat_radition
    steam_consumption = total_heat/enthalpy

    if final_temp > 60 :
      hot_drain = water
    else:
      cold_drain = water

    return steam_consumption , cold_drain , hot_drain , water

def dark_shade_jet(production):
  total_water = 0
  steam_consumption = 0
  hot_drain = 0
  cold_drain = 0
  dark_shade = {"Desizing":98,"Bleaching":98,"Hot Wash":98,"Room Temp. Wash":60,"Dyeing":98,"Soaping":70,"Hot wash":70,"Cold wash":40}
  for i in dark_shade :
     steam,cold,hot,water = process_cal(production,dark_shade[i])
     steam_consumption += steam
     hot_drain += hot
     cold_drain += cold
     total_water += water
    #print(steam,cold,hot,water)
  steam_consumption = int(steam_consumption)
  cold_drain = int(cold_drain)
  hot_drain = int(hot_drain)
  total_water = cold_drain + hot_drain
  if production != 0:
     ssc1 = round(steam_consumption/production,2)
     swc1 = round(total_water/production,2)
  else:
    ssc1 = 0
    swc1 = 0
    #print(steam,cold,hot,water)
  return steam_consumption , cold_drain , hot_drain , total_water, ssc1,swc1

def medium_shade_jet(production):
  total_water = 0
  steam_consumption = 0
  hot_drain = 0
  cold_drain = 0
  medium_shade = {"Desizing":98,"Bleaching":98,"Hot Wash":98,"Room Temp. Wash":60,"Dyeing":98,"Hot wash":70,"Cold wash":40}
  for i in medium_shade :
     steam,cold,hot,water = process_cal(production,medium_shade[i])
     steam_consumption += steam
     hot_drain += hot
     cold_drain += cold
     total_water += water
    #print(steam,cold,hot,water)
  steam_consumption = int(steam_consumption)
  cold_drain = int(cold_drain)
  hot_drain = int(hot_drain)
  total_water = cold_drain + hot_drain
  if production != 0:
     ssc2 = round(steam_consumption/production,2)
     swc2 = round(total_water/production,2)
  else:
    ssc2 = 0
    swc2 = 0
    #print(steam,cold,hot,water)
  return steam_consumption , cold_drain , hot_drain , total_water , ssc2,swc2

def white_shade_jet(production):
  total_water = 0
  steam_consumption = 0
  hot_drain = 0
  cold_drain = 0
  white_shade = {"Desizing":98,"Bleaching":98,"Hot Wash":98,"Room Temp. Wash":60,"Dyeing":98,"Hot wash":70,"Cold wash":40}
  for i in white_shade :
     steam,cold,hot,water = process_cal(production,white_shade[i])
     steam_consumption += steam
     hot_drain += hot
     cold_drain += cold
     total_water += water
    #print(steam,cold,hot,water)
  steam_consumption = int(steam_consumption)
  cold_drain = int(cold_drain)
  hot_drain = int(hot_drain)
  total_water = cold_drain + hot_drain
  if production != 0:
     ssc3 = round(steam_consumption/production,2)
     swc3 = round(total_water/production,2)
  else:
    ssc3 = 0
    swc3 = 0
    #print(steam,cold,hot,water)
  return steam_consumption , cold_drain , hot_drain , total_water , ssc3,swc3

def light_shade_jet(production):
  total_water = 0
  steam_consumption = 0
  hot_drain = 0
  cold_drain = 0
  light_shade = {"Desizing":98,"Bleaching":98,"Hot Wash":98,"Room Temp. Wash":60,"Dyeing":98,"Hot wash":70,"Cold wash":40}
  for i in light_shade :
     steam,cold,hot,water = process_cal(production,light_shade[i])
     steam_consumption += steam
     hot_drain += hot
     cold_drain += cold
     total_water += water
    #print(steam,cold,hot,water)
  steam_consumption = int(steam_consumption)
  cold_drain = int(cold_drain)
  hot_drain = int(hot_drain)
  total_water = cold_drain + hot_drain
  if production != 0:
     ssc4 = round(steam_consumption/production,2)
     swc4 = round(total_water/production,2)
  else:
    ssc4 = 0
    swc4 = 0
    #print(steam,cold,hot,water)
  return steam_consumption , cold_drain , hot_drain , total_water,ssc4,swc4

def jigger(value1, value2, value3, value4):
  s1,c1,h1,t1,ssc1,swc1 = dark_shade_jet(value1)
  s2,c2,h2,t2,ssc2,swc2 = medium_shade_jet(value2)
  s3,c3,h3,t3,ssc3,swc3 = white_shade_jet(value3)
  s4,c4,h4,t4,ssc4,swc4 = light_shade_jet(value4)
  final_steam = s1+s2+s3+s4
  final_cold_drain = c1+c2+c3+c4
  final_hot_drain = h1+h2+h3+h4
  final_total_drain = t1+t2+t3+t4
  total_production = value1 + value2 + value3 + value4
  ssc_final = round(final_steam/total_production,2)
  swc_final = round(final_total_drain/total_production,2)
  table_html = f"""
  <table>
    <tr><th>Shade</th><th>Steam Consumption</th><th>Cold Drain</th><th>Hot Drain</th><th>Total Water</th><th>SSC</th><th>SWC</th></tr>
    <tr><th>Dark</th><td>{s1}</td><td>{c1}</td><td>{h1}</td><td>{t1}</td><td>{ssc1}</td><td>{swc1}</td></tr>
    <tr><th>Medium</th><td>{s2}</td><td>{c2}</td><td>{h2}</td><td>{t2}</td><td>{ssc2}</td><td>{swc2}</td></tr>
    <tr><th>Light</th><td>{s3}</td><td>{c3}</td><td>{h3}</td><td>{t3}</td><td>{ssc3}</td><td>{swc3}</td></tr>
    <tr><th>White</th><td>{s4}</td><td>{c4}</td><td>{h4}</td><td>{t4}</td><td>{ssc4}</td><td>{swc4}</td></tr>
    <tr><th>Total</th><td>{final_steam}</td><td>{final_cold_drain}</td><td>{final_hot_drain}</td><td>{final_total_drain}</td><td>{ssc_final}</td><td>{swc_final}</td></tr>

  </table>
  """
  return table_html

iface = gr.Interface(
    fn=jigger,
    inputs= [
        gr.Number(value=0, label="Dark"),
        gr.Number(value=0, label="Medium"),
        gr.Number(value=0, label="Light"),
        gr.Number(value=0, label="White"),
    ],
    outputs= gr.components.HTML(label="Final Table"),
    title ="Steam Consumption, Water, Hot_Drain, Cold_Drain Calculation Dashboard for Jigger",
    description="Enter values and click 'Calculate' to see the results.<br/><br/>" ,
    css=".gr-box {padding: 20px;}" )

iface.launch()