house_price_prediction

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house_price_prediction / app.py

chaphoto

Duplicate from saritha/house_price_prediction

18eb474 about 1 year ago

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	import pandas as pd
	import streamlit as st
	import numpy as np
	import matplotlib.pyplot as plt
	from sklearn.metrics import r2_score
	from sklearn.linear_model import LinearRegression
	from sklearn.model_selection import train_test_split
	import seaborn as sns



	# loading the data
	df = pd.read_csv('housing.csv')


	# Renaming columns
	df.rename(columns = {'Avg. Area Income':'Income','Avg. Area House Age':'House_age', 'Avg. Area Number of Rooms':'No_rooms',
	'Avg. Area Number of Bedrooms':'No_bedrooms', 'Area Population':'population'},inplace = True)


	# HEADINGS
	st.title('House Price Prediction')
	st.sidebar.header('Housing Data')
	st.subheader('Training Data Stats')
	st.write(df.describe())


	# X AND Y DATA
	x = df.drop(['Price'], axis = 1)
	y = df.iloc[:, -1]
	x_train, x_test, y_train, y_test = train_test_split(x,y, test_size = 0.2, random_state = 0)


	# FUNCTION
	def user_report():
	Income = st.sidebar.slider('Income', 17795,107702, 18000 )
	House_age = st.sidebar.slider('House_age', 2,10, 4 )
	No_rooms = st.sidebar.slider('No_rooms', 3,11, 5 )
	No_bedrooms = st.sidebar.slider('No_bedrooms', 2,7, 3 )
	population = st.sidebar.slider('population', 170,70000, 5000 )


	user_report_data = {
	'Income':Income,
	'House_age':House_age,
	'No_rooms':No_rooms,
	'No_bedrooms':No_bedrooms,
	'population':population
	}
	report_data = pd.DataFrame(user_report_data, index=[0])
	return report_data




	# Housing Data
	user_data = user_report()
	st.subheader('Housing Data')
	st.write(user_data)




	# MODEL
	lr = LinearRegression()
	lr.fit(x_train, y_train)
	user_result = lr.predict(user_data)



	# VISUALISATIONS
	st.title('Visualised Housing Data')



	# COLOR FUNCTION
	if user_result[0]==0:
	color = 'blue'
	else:
	color = 'red'



	# OUTPUT
	st.subheader('Price of House is : ')
	st.write(str(user_result))
	st.title('output')
	st.subheader('r2_score: ')
	st.write(str(r2_score(y_test, lr.predict(x_test))*100)+'%')