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In this chapter, we will focus on fixing a prediction problem with the help of a specific
scenario.
Consider that a company wants to automate the loan eligibility details as per the customer
details provided through online application form. The details include name of customer, gender, marital status, loan amount and other mandatory details.
The details are recorded in the CSV file as shown below −
Execute the following code to evaluate the prediction problem −
import pandas as pd from sklearn import ensemble import numpy as np from scipy.stats import mode from sklearn import preprocessing,model_selection from sklearn.linear_model import LogisticRegression from sklearn.preprocessing import LabelEncoder #loading the dataset data=pd.read_csv(''train.csv'',index_col=''Loan_ID'') def num_missing(x): return sum(x.isnull()) #imputing the the missing values from the data data[''Gender''].fillna(mode(list(data[''Gender''])).mode[0], inplace=True) data[''Married''].fillna(mode(list(data[''Married''])).mode[0], inplace=True) data[''Self_Employed''].fillna(mode(list(data[''Self_Employed''])).mode[0], inplace=True) # print (data.apply(num_missing, axis=0)) # #imputing mean for the missing value data[''LoanAmount''].fillna(data[''LoanAmount''].mean(), inplace=True) mapping={''0'':0,''1'':1,''2'':2,''3+'':3} data = data.replace({''Dependents'':mapping}) data[''Dependents''].fillna(data[''Dependents''].mean(), inplace=True) data[''Loan_Amount_Term''].fillna(method=''ffill'',inplace=True) data[''Credit_History''].fillna(method=''ffill'',inplace=True) print (data.apply(num_missing,axis=0)) #converting the cateogorical data to numbers using the label encoder var_mod = [''Gender'',''Married'',''Education'',''Self_Employed'',''Property_Area'',''Loan_Status''] le = LabelEncoder() for i in var_mod: le.fit(list(data[i].values)) data[i] = le.transform(list(data[i])) #Train test split x=[''Gender'',''Married'',''Education'',''Self_Employed'',''Property_Area'',''LoanAmount'', ''Loan_Amount_Term'',''Credit_History'',''Dependents''] y=[''Loan_Status''] print(data[x]) X_train,X_test,y_train,y_test=model_selection.train_test_split(data[x],data[y], test_size=0.2) # # #Random forest classifier # clf=ensemble.RandomForestClassifier(n_estimators=100, criterion=''gini'',max_depth=3,max_features=''auto'',n_jobs=-1) clf=ensemble.RandomForestClassifier(n_estimators=200,max_features=3,min_samples _split=5,oob_score=True,n_jobs=-1,criterion=''entropy'') clf.fit(X_train,y_train) accuracy=clf.score(X_test,y_test) print(accuracy)
Output
The above code generates the following output.
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