eyad222 commited on
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a48ebed
1 Parent(s): f0c9705

Create app.py

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  1. app.py +42 -0
app.py ADDED
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+ import numpy as np
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+ import streamlit as st
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+ import matplotlib.pyplot as plt
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+
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+ def prediction_pop_model(year, population, pred_year):
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+ n = len(year)
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+ sum_x = np.sum(year, dtype=np.float64)
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+ sum_y = np.sum(population, dtype=np.float64)
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+ sum_xy = np.sum(year * population, dtype=np.float64)
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+ sum_x_squared = np.sum(year ** 2, dtype=np.float64)
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+
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+ slope = (n * sum_xy - sum_x * sum_y) / (n * sum_x_squared - sum_x ** 2)
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+ intercept = (sum_y - slope * sum_x) / n
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+
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+ pred_population = slope * (pred_year) + intercept
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+ return pred_population
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+
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+ # Data
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+ year = np.array([1952, 1957, 1962, 1967, 1972, 1977, 1982, 1987, 1992, 1997, 2002, 2007, 2009, 2011, 2013, 2015, 2017, 2019, 2021, 2023, 2024], dtype=np.float64)
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+ population = np.array([22223309, 25009741, 28173309, 31681188, 34807417, 38783863, 45681811, 52799062, 59402198, 66134291, 73312559, 75100000, 78300000, 81500000, 85800000, 89000000, 94800000, 98900000, 102800000, 106100000, 107300000], dtype=np.float64)
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+
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+ # Streamlit Interface
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+ st.title("Population Prediction Model")
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+
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+ # Input year
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+ input_year = st.number_input("Enter the year you want to predict the population for:", min_value=1950, max_value=2100, step=1, value=2024)
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+
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+ # Predict button
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+ if st.button("Predict"):
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+ predicted_population = prediction_pop_model(year, population, input_year)
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+ st.write(f"Predicted Population for {input_year}: {predicted_population}")
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+
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+ # Plotting
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+ plt.figure(figsize=(10, 5))
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+ plt.scatter(year, population, color='blue', label='Actual Population')
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+ plt.plot(year, population, color='blue')
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+ plt.scatter(input_year, predicted_population, color='red', label='Predicted Population')
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+ plt.xlabel('Year')
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+ plt.ylabel('Population')
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+ plt.title('Population Prediction')
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+ plt.legend()
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+ st.pyplot(plt.gcf())