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Temesvári Csanád commited on
Commit
b1a1a2f
1 Parent(s): 36e720f

update app and functions

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Files changed (2) hide show
  1. app.py +6 -6
  2. functions.py +9 -3
app.py CHANGED
@@ -3,7 +3,7 @@ import hopsworks
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  import joblib
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  import pandas as pd
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  import datetime
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- from functions import get_weather_data_weekly, data_encoder, get_aplevel
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  from PIL import Image
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@@ -45,19 +45,19 @@ model = joblib.load(model_dir + "/aqi_model.pkl")
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  st.write("Succesfully loaded!✔️")
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  st.sidebar.write("-" * 36)
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- fancy_header("Making AQI pedictions for the next week..")
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  preds = model.predict(data_encoder(weekly_data)).astype(int)
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- poll_level = get_aplevel(preds.T.reshape(-1, 1))
 
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  next_week_datetime = [today + datetime.timedelta(days=d) for d in range(7)]
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-
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- next_week_str = [f"{days.strftime('%Y-%m-%d')}, {days.strftime('%A')}" for days in next_week_datetime]
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  df = pd.DataFrame(data=[preds, poll_level], index=["AQI", "Air pollution level"], columns=next_week_str)
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  st.write("Here they are!")
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- st.dataframe(df.style.apply) # ref to function color_aq
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  st.button("Re-run")
 
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  import joblib
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  import pandas as pd
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  import datetime
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+ from functions import get_weather_data_weekly, data_encoder, get_aplevel, get_color
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  from PIL import Image
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  st.write("Succesfully loaded!✔️")
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  st.sidebar.write("-" * 36)
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+ fancy_header("Making AQI predictions for the next 7 days")
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  preds = model.predict(data_encoder(weekly_data)).astype(int)
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+ air_pollution_level = ['Good', 'Moderate', 'Unhealthy for sensitive Groups','Unhealthy' ,'Very Unhealthy', 'Hazardous']
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+ poll_level = get_aplevel(preds.T.reshape(-1, 1), air_pollution_level)
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  next_week_datetime = [today + datetime.timedelta(days=d) for d in range(7)]
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+ next_week_str = [f"{days.strftime('%A')}, {days.strftime('%Y-%m-%d')}" for days in next_week_datetime]
 
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  df = pd.DataFrame(data=[preds, poll_level], index=["AQI", "Air pollution level"], columns=next_week_str)
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  st.write("Here they are!")
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+ st.dataframe(df.style.apply(get_color, subset=(["Air pollution level"], slice(None))))
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  st.button("Re-run")
functions.py CHANGED
@@ -163,12 +163,18 @@ def data_encoder(X):
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  X['conditions'] = OrdinalEncoder().fit_transform(X[['conditions']])
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  return X
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- def get_aplevel(temps:np.ndarray) -> list:
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  boundary_list = np.array([0, 50, 100, 150, 200, 300]) # assert temps.shape == [x, 1]
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  redf = np.logical_not(temps<=boundary_list) # temps.shape[0] x boundary_list.shape[0] ndarray
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  hift = np.concatenate((np.roll(redf, -1)[:, :-1], np.full((temps.shape[0], 1), False)), axis = 1)
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  cat = np.nonzero(np.not_equal(redf,hift))
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  air_pollution_level = ['Good', 'Moderate', 'Unhealthy for sensitive Groups','Unhealthy' ,'Very Unhealthy', 'Hazardous']
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- level = [air_pollution_level[el] for el in cat[1]]
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- return level
 
 
 
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  X['conditions'] = OrdinalEncoder().fit_transform(X[['conditions']])
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  return X
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+ def get_aplevel(temps:np.ndarray, table:list):
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  boundary_list = np.array([0, 50, 100, 150, 200, 300]) # assert temps.shape == [x, 1]
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  redf = np.logical_not(temps<=boundary_list) # temps.shape[0] x boundary_list.shape[0] ndarray
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  hift = np.concatenate((np.roll(redf, -1)[:, :-1], np.full((temps.shape[0], 1), False)), axis = 1)
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  cat = np.nonzero(np.not_equal(redf,hift))
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+ level = [table[el] for el in cat[1]]
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+ return level
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+
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+ def get_color(level:list):
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  air_pollution_level = ['Good', 'Moderate', 'Unhealthy for sensitive Groups','Unhealthy' ,'Very Unhealthy', 'Hazardous']
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+ color_list = ["Green", "Yellow", "DarkOrange", "Red", "Purple", "DarkRed"]
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+ ind = [air_pollution_level.index(lel) for lel in level]
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+ text = [f"color:{color_list[idex]};" for idex in ind]
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+ return text