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temperature_pred / app.py

Campfireman

Update app.py

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	import gradio as gr
	import hopsworks
	import joblib
	import pandas as pd
	import numpy as np
	import folium
	import sklearn.preprocessing as proc
	import json
	import time
	from datetime import timedelta, datetime
	from branca.element import Figure

	from functions import decode_features, get_weather_data, get_weather_df, get_weather_json_quick
	##################

	def greet(total_pred_days):
	str1 = ""

	if(total_pred_days == ""):
	return "Empty input"

	count = int(total_pred_days)
	if count > 14:
	str1 += "Warning: 14 days at most. " + '\n'
	count = 14
	if count <0:
	str1 = "Invalid input."
	return str1
	count = count + 1

	X = pd.DataFrame()

	for i in range(count+1):
	# Get, rename column and rescale
	next_day_date = datetime.today() + timedelta(days=i)
	next_day = next_day_date.strftime ('%Y-%m-%d')
	json = get_weather_json_quick(next_day)
	temp = get_weather_data(json)
	X = X.append(temp, ignore_index=True)


	# X reshape

	X.drop('preciptype', inplace = True, axis = 1)
	X.drop('severerisk', inplace = True, axis = 1)
	X.drop('stations', inplace = True, axis = 1)
	X.drop('sunrise', inplace = True, axis = 1)
	X.drop('sunset', inplace = True, axis = 1)
	X.drop('moonphase', inplace = True, axis = 1)
	X.drop('description', inplace = True, axis = 1)
	X.drop('icon', inplace = True, axis = 1)
	X = X.drop(columns=["sunriseEpoch", "sunsetEpoch", "source", "datetimeEpoch"]).fillna(0)
	X = X.rename(columns={'pressure':'sealevelpressure'})

	# Merge X and query
	#Y = X.append(Q, ignore_index=True)

	# Data scaling
	X = X.drop(columns = ['conditions', "datetime", "temp", "tempmax", "tempmin"])
	category_cols = ['conditions']
	cat_std_cols = ['feelslikemax','feelslikemin','feelslike','dew','humidity','precip','precipprob','precipcover','snow','snowdepth','windgust','windspeed','winddir','sealevelpressure','cloudcover','visibility','solarradiation','solarenergy','uvindex']
	scaler_std = proc.StandardScaler()
	X.insert(19,"conditions",0)
	X.insert(0,"name",0)

	X[cat_std_cols] = scaler_std.fit_transform(X[cat_std_cols])
	X[category_cols] = scaler_std.fit_transform(X[category_cols])

	# Predict
	preds = model.predict(X[0:count])
	preds1= model1.predict(X[0:count])
	preds2= model2.predict(X[0:count])

	for x in range(count):
	if (x != 0):
	str1 += (datetime.now() + timedelta(days=x)).strftime('%Y-%m-%d') + " predicted temperature: " +str(float(preds[len(preds) - count + x]))+ "\npredicted max temperature: " +str(float(preds1[len(preds1) - count + x]))+ "\npredicted min temperature: " +str(float(preds2[len(preds2) - count + x]))+"\n"

	return str1

	#######################################################
	# Preparations
	project = hopsworks.login()
	mr=project.get_model_registry()

	# fs = project.get_feature_store()
	# weather_fg = fs.get_or_create_feature_group(
	# name = 'weather_fg',
	# version = 1
	# )
	#
	# query = weather_fg.select_all()
	# Q = query.read()

	model = mr.get_model("temp_model_new", version=1)
	model_dir=model.download()

	model1 = mr.get_model("tempmax_model_new", version=1)
	model_dir1=model1.download()

	model2 = mr.get_model("tempmin_model_new", version=1)
	model_dir2=model2.download()

	model = joblib.load(model_dir + "/model_temp_new.pkl")
	model1 = joblib.load(model_dir1 + "/model_tempmax_new.pkl")
	model2 = joblib.load(model_dir2+ "/model_tempmin_new.pkl")


	########################################################
	# Gradio Interface
	#demo = gr.Interface(fn=greet, inputs = "text", outputs="text")

	with gr.Blocks() as demo:
	with gr.Row():
	with gr.Column():
	days = gr.Slider(
	label="How many days do you want to predict the temperature of? ", value=1, minimum=1, maximum=15, step=1
	)
	with gr.Column():
	output = gr.Textbox(
	label="Predicted results: "
	)
	days.change(greet, days, output)


	if __name__ == "__main__":
	demo.launch()