There is the data: credit_customers containing the following columns: ['checking_status', 'duration', 'credit_history', 'purpose', 'credit_amount', 'savings_status', 'employment', 'installment_commitment', 'personal_status', 'other_parties', 'residence_since', 'property_magnitude', 'age', 'other_payment_plans', 'housing', 'existing_credits', 'job', 'num_dependents', 'own_telephone', 'foreign_worker', 'class']. 
--- The description for each column this data is: 
Checking_status: Status of the applicant's checking account ("no checking": No checking account, "<0": Overdrawn or negative balance, "0<=X<200": Low positive balance, e.g., between $0 and $200, and ">=200": Healthy balance)
Duration: Duration of the loan or credit term (measured in months)
Credit_history: Applicant's past handling of credit ("no credits/all paid": No prior credit or all previous credits paid off, "existing paid": Current credits are being paid off diligently, "critical/other existing credit": Past or current credits with issues, like late payments, "delayed previously": History of delayed payments)
Purpose: Reason for the loan or credit application (purchasing a car, financing education, buying electronics ...etc)
Credit_amount: Amount of money requested in the loan or credit application
Savings_status: Amount of savings the applicant has ("no known savings": No savings account or negligible savings, "<100": Savings less than $100, "100<=X<500": Savings between $100 and $500, "500<=X<1000": Savings between $500 and $1000, and ">=1000": Savings of $1000 or more)
Employment: Applicant's employment status or the length of their current employment ("unemployed": No current employment, "<1": Employed for less than a year, "1<=X<4": Employed between 1 and 4 years, ">=7": Employed for 7 years or more)
Installment_commitment: Portion of the applicant's disposable income that is allocated for loan repayments (represented as a percentage or a fixed numerical value)
Personal_status: Details of the applicant's personal and demographic information ("male single": A single male, "female div/dep/mar": A divorced, separated, or married female, "male div/sep": A divorced or separated male, and "male mar/wid": A married or widowed male)
Other_parties: Any third parties involved in the credit agreement ("none": No other parties involved, "guarantor": A guarantor is present who guarantees repayment, and "co-applicant": Another individual is co-signing the loan)
Residence_since: Length of time the applicant has been living at their current residence (measured in years)
Property_magnitude: Type or value of property the applicant owns, serving as potential collateral ("real estate": Owning a house or land, "life insurance": Having a life insurance policy with a cash value, "car": Owning a car, and "no known property": No property that can be used as collateral)
Age: Age of the applicant
Other_payment_plans: Any other ongoing loans or financial obligations the applicant has outside of the loan in question ("none": No other payment plans or ongoing loans, "bank": The applicant has other loans or payment plans with a bank, and "stores": The applicant has credit obligations with stores or retail chains)
Housing: Living situation of the applicant ("own": The applicant owns their home, "rent": The applicant is renting their living space, and "for free": The applicant lives in a space without paying rent (e.g., with family))
Existing_credits: Number of current credit lines or loans that the applicant already has (represented numerically)
Job: Applicant's employment type ("skilled": Professionally skilled job or a white-collar occupation, "unskilled resident": Unskilled job and residing in the country, "high qualif/self emp/mgmt": Highly qualified, self-employed, or in management positions, and "unemp/unskilled non res": Unemployed, lacks professional or skilled training, and is not a resident of the country)
Num_dependents: Number of individuals financially dependent on the applicant
Own_telephone: Whether the applicant has a telephone
Foreign_worker: Whether the applicant is a foreign worker
Class: Target variable for a predictive model, indicating the risk category of the credit application ("good": Low risk, indicating a high likelihood of timely repayment, or "bad": High risk, suggesting potential difficulties in repaying the loan)
---
Considering contents from the dataset and requirements from user. Please note DO NOT CHANGE FILE AND VARIABLE NAMES THAT I HAVE SET!
Interactions begin:
[USER (data scientist)]:Hi Tapilot, let's start with the first question. I will generate the code to check for missing values in the credit_customers dataset and propose methods for handling them. Specifically, you can generate a dataframe and a pickle file to analyze and store the count of missing values per column in the 'credit_customers' dataset.

[YOU (AI assistant)]: Sure, I can help you :
'''
import pandas as pd  
import pickle
from decision_company import read_csv_file, is_null, sum_up
  
# Load the dataset using the custom function  
credit_customers = read_csv_file("credit_customers.csv")  
  
# Check for missing values using the custom functions  
missing_values = is_null(credit_customers)  

print("Missing values per column:\n", sum_up(missing_values))

'''

[USER (data scientist)]: Great, since there are no missing values, we can move on to the second question. I will generate the code to identify categorical variables in the credit_customers dataset and suggest encoding methods for converting them to numerical variables. Specifically, you can generate a dataframe and a pickle file to visualize and store the process of identifying nominal categorical variables in the 'credit_customers' dataset, followed by applying one-hot encoding to these variables.

[YOU (AI assistant)]: Sure, I can help you :
'''
import pandas as pd  
import pickle
from decision_company import read_csv_file, select_data_types, get_columns, get_dummies

# Load the dataset  
credit_customers = read_csv_file("credit_customers.csv")  
  
# Identify categorical variables  
categorical_columns = get_columns(select_data_types(credit_customers,['object']))  
  
# Initialize an empty list to store nominal categorical columns  
nominal_categorical_columns = list(categorical_columns)  
  
# Suggest encoding methods  
print("Suggested encoding methods:")  
print("1. One-hot encoding for nominal categorical variables:")  
for col in nominal_categorical_columns:  
    print("   -", col)  
  
# Example code for one-hot encoding  
credit_customers_encoded = get_dummies(credit_customers, columns=nominal_categorical_columns)  
print("\nData after one-hot encoding:\n", credit_customers_encoded.head())  
  
# Save the encoded data to a file

'''

[USER (data scientist)]: Now that we've taken care of encoding the categorical variables, let's jump to question three. Can you create some code to figure out if we need to normalize the credit_customers dataset? Just see if the value goes beyond 1, and if it does, we should normalize it and generate the top 5 rows of normalized dataframe. Oh, and don't forget to recommend a normalization method if it's needed.

My template of code snippet is:

---BEGIN CODE TEMPLATE---

import pandas as pd  
import numpy as np
from sklearn.preprocessing import StandardScaler 
import pickle
from decision_company import read_csv_file, 

# please import the necessary private functions from decision_company first

# Load the dataset  
credit_customers = read_csv_file("credit_customers.csv")  
  
# YOUR SOLUTION BEGIN:
<code1>
[COMPLETE YOUR CODE]  
</code1>
# YOUR SOLUTION END

print("Data after Standard Scaling:\n", get_first_n_rows(credit_customers_normalized))  

# save data
pickle.dump(get_first_n_rows(credit_customers_normalized),open("./pred_result/credit_customers_normalized_head.pkl","wb"))

---END CODE TEMPLATE---

Please note that you have to generate the WHOLE python code instead of code segments based on the code snippet using Pandas library 2.0.3 version and Matplotlib library 3.7.4 version. You must keep all comments in code snippet unchanged.

[YOU (AI assistant)]: Sure, I can help you:
'''
import pandas as pd  
import numpy as np
from sklearn.preprocessing import StandardScaler 
import pickle
from decision_company import read_csv_file, 

# please import the necessary private functions from decision_company first

# Load the dataset  
credit_customers = read_csv_file("credit_customers.csv")  
  
# YOUR SOLUTION BEGIN:
