zead ashraf
zeadsokar
AI & ML interests
import pandas as pd
import numpy as np
import seaborn as sns
import matplotlib.pyplot as plt
from sklearn.preprocessing import OneHotEncoder, MinMaxScaler, LabelEncoder
from sklearn.model_selection import train_test_split, RandomizedSearchCV
from sklearn.linear_model import LogisticRegression
from sklearn.metrics import (accuracy_score)
df = pd.read_csv(
"/content/WA_Fn-UseC_-Telco-Customer-Churn.csv",)
import joblib
label_encode_cols = ["Partner", "Dependents", "PhoneService", "PaperlessBilling","gender"]
one_hot_encode_cols = ["MultipleLines", "InternetService", "OnlineSecurity", "OnlineBackup",
"DeviceProtection", "TechSupport", "StreamingTV", "StreamingMovies",
"Contract", "PaymentMethod"]
min_max_scale_cols = ["tenure", "MonthlyCharges", "TotalCharges"]
X = df.drop(columns=['customerID', 'Churn'])
y = df['Churn']
print("Unique values in 'Churn' before encoding:", y.unique())
le_target = LabelEncoder()
y = le_target.fit_transform(y)
print("Unique values in 'Churn' after encoding:", y)
joblib.dump(le_target, 'label_encoder_target.pkl')
print("Label encoder for target saved.")
X[min_max_scale_cols] = X[min_max_scale_cols].replace(' ', np.nan).astype(float)
X[min_max_scale_cols] = X[min_max_scale_cols].fillna(X[min_max_scale_cols].mean())
label_encoders = {}
for col in label_encode_cols :
le = LabelEncoder()
X[col] = le.fit_transform(X[col])
label_encoders[col] = le
joblib.dump(label_encoders, 'label_encoders.pkl')
print("Label encoders saved.")
one_hot_encoder = OneHotEncoder(sparse_output=False, handle_unknown='ignore')
one_hot_encoded = one_hot_encoder.fit_transform(X[one_hot_encode_cols])
joblib.dump(one_hot_encoder, 'one_hot_encoder.pkl')
print("One-hot encoder saved.")
min_max_scaler = MinMaxScaler()
scaled_numerical = min_max_scaler.fit_transform(X[min_max_scale_cols])
joblib.dump(min_max_scaler, 'min_max_scaler.pkl')
print("Min-max scaler saved.")
X_processed = np.hstack((X[label_encode_cols ].values, scaled_numerical, one_hot_encoded))
X_train, X_test, y_train, y_test = train_test_split(X_processed, y, test_size=0.2, random_state=42)
model = LogisticRegression(max_iter=1000, random_state=42)
model.fit(X_train, y_train)
model_file = 'logistic_regression_model.pkl'
joblib.dump(model, model_file)
print(f"model saved as {model_file}.")
-------------------------------------------------------------\###########################################################
import pandas as pd
import numpy as np
import joblib
import gradio as gr
label_encoders = joblib.load('label_encoders.pkl')
one_hot_encoder = joblib.load('one_hot_encoder.pkl')
min_max_scaler = joblib.load('min_max_scaler.pkl')
model = joblib.load('logistic_regression_model.pkl')
le_target = joblib.load('label_encoder_target.pkl')
def preprocess_data(data):
"""
Preprocess the input data for prediction.
Parameters:
data (dict): Dictionary containing input data.
Returns:
np.array: Processed data ready for prediction.
"""
df = pd.DataFrame([data])
label_encode_cols = ["Partner", "Dependents", "PhoneService", "PaperlessBilling", "gender"]
one_hot_encode_cols = ["MultipleLines", "InternetService", "OnlineSecurity", "OnlineBackup",
"DeviceProtection", "TechSupport", "StreamingTV", "StreamingMovies",
"Contract", "PaymentMethod"]
min_max_scale_cols = ["tenure", "MonthlyCharges", "TotalCharges"]
for col in label_encode_cols + one_hot_encode_cols:
df[col] = df[col].str.strip()
df[min_max_scale_cols] = df[min_max_scale_cols].replace(' ', np.nan).astype(float)
df[min_max_scale_cols] = df[min_max_scale_cols].fillna(df[min_max_scale_cols].mean())
for col in label_encode_cols:
le = label_encoders[col]
df[col] = le.transform(df[col])
one_hot_encoded = one_hot_encoder.transform(df[one_hot_encode_cols])
scaled_numerical = min_max_scaler.transform(df[min_max_scale_cols])
X_processed = np.hstack((df[label_encode_cols].values, scaled_numerical, one_hot_encoded))
return X_processed
def predict(gender, senior_citizen, partner, dependents, tenure, phone_service, multiple_lines, internet_service,
online_security, online_backup, device_protection, tech_support, streaming_tv, streaming_movies,
contract, paperless_billing, payment_method, monthly_charges, total_charges):
"""
Predict the churn status of a customer.
Parameters:
Various input features as separate parameters.
Returns:
str: Prediction result ("Churn" or "No Churn").
"""
data = {
"gender": gender,
"SeniorCitizen": senior_citizen,
"Partner": partner,
"Dependents": dependents,
"tenure": tenure,
"PhoneService": phone_service,
"MultipleLines": multiple_lines,
"InternetService": internet_service,
"OnlineSecurity": online_security,
"OnlineBackup": online_backup,
"DeviceProtection": device_protection,
"TechSupport": tech_support,
"StreamingTV": streaming_tv,
"StreamingMovies": streaming_movies,
"Contract": contract,
"PaperlessBilling": paperless_billing,
"PaymentMethod": payment_method,
"MonthlyCharges": monthly_charges,
"TotalCharges": total_charges
}
try:
X_new = preprocess_data(data)
prediction = model.predict(X_new)
prediction = le_target.inverse_transform(prediction)
return "Churn" if prediction[0] == 'Yes' else "No Churn"
except Exception as e:
print("Error during prediction:", e)
return str(e)
inputs = [
gr.Radio(label="Gender", choices=["Female", "Male"]),
gr.Number(label="Senior Citizen (0 or 1)"),
gr.Radio(label="Partner", choices=["Yes", "No"]),
gr.Radio(label="Dependents", choices=["Yes", "No"]),
gr.Number(label="Tenure (integer)"),
gr.Radio(label="Phone Service", choices=["Yes", "No"]),
gr.Radio(label="Multiple Lines", choices=["Yes", "No", "No phone service"]),
gr.Radio(label="Internet Service", choices=["DSL", "Fiber optic", "No"]),
gr.Radio(label="Online Security", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Online Backup", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Device Protection", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Tech Support", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Streaming TV", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Streaming Movies", choices=["Yes", "No", "No internet service"]),
gr.Radio(label="Contract", choices=["Month-to-month", "One year", "Two year"]),
gr.Radio(label="Paperless Billing", choices=["Yes", "No"]),
gr.Radio(label="Payment Method", choices=["Electronic check", "Mailed check", "Bank transfer (automatic)", "Credit card (automatic)"]),
gr.Number(label="Monthly Charges (float)"),
gr.Number(label="Total Charges (float)")
]
outputs = gr.Textbox(label="Prediction")
gr.Interface(fn=predict, inputs=inputs, outputs=outputs, title="Churn Prediction Model").launch()
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Upload app.py
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