from sklearn.feature_selection import mutual_info_regression from statsmodels.stats.outliers_influence import variance_inflation_factor from sklearn.linear_model import Lasso from sklearn.linear_model import LogisticRegression from sklearn.metrics import roc_curve, auc import statsmodels.api as sm import pandas as pd import numpy as np import evaluationer import streamlit as st # import root_mean_squared_error from sklearn.metrics import root_mean_squared_error def feature_selection(X_train, X_test,y_train,y_test,model_reg,alpha = 0.05): st.write("dvsdv",y_train) st.write("dvfssdv",X_train) model = sm.OLS(y_train, sm.add_constant(X_train)) model_fit = model.fit() pval_cols = model_fit.pvalues[model_fit.pvalues > 0.05].index.tolist() coef_cols = model_fit.params[abs(model_fit.params) < 0.001].index.tolist() pval_and_coef_cols = list(set(coef_cols) | set(pval_cols)) mi_scores = mutual_info_regression(X_train, y_train) mi = pd.DataFrame() mi["col_name"] = X_train.columns mi["mi_score"] = mi_scores mi_cols = mi[mi.mi_score ==0].col_name.values.tolist() corr = X_train.corr() corru= pd.DataFrame(np.triu(corr),columns = corr.columns , index = corr.index) corr_u_cols = corru[corru[(corru > 0.5 )& (corru <1)].any()].index.tolist() corrl= pd.DataFrame(np.tril(corr),columns = corr.columns , index = corr.index) corr_l_cols = corrl[corrl[(corrl > 0.5 )& (corrl <1)].any()].index.tolist() X_new_vif = sm.add_constant(X_train) # Calculating VIF vif = pd.DataFrame() vif["variables"] = X_new_vif.columns vif["VIF"] = [variance_inflation_factor(X_new_vif.values, i) for i in range(X_new_vif.shape[1])] st.write("gdfgdsdsdfad",vif) if len(vif[vif["variables"] == "const"]) == 1: vif = vif.drop(index = (vif[vif["variables"] == "const"].index[0])) st.write("gdfgdsad",vif) # drop const in vif cols # vif_cols = X_new_vif.drop(columns = "const") vif_cols = vif[vif.VIF >10].variables.tolist() # lasso if alpha == "best": lasso_len = [] alpha_i = [] for i in range(1,1000,5): j = i/10000 model_lasso = Lasso(alpha=j) model_lasso.fit(X_train, y_train) col_df = pd.DataFrame({ "col_name": X_train.columns, "lasso_coef": model_lasso.coef_ }) a = len(col_df[col_df.lasso_coef ==0]) lasso_len.append(a) alpha_i.append(j) for i in zip(lasso_len,alpha_i): print(i) input_alpha = float(input("enter alpha")) model_lasso = Lasso(alpha=input_alpha) model_lasso.fit(X_train, y_train) col_df = pd.DataFrame({ "col_name": X_train.columns, "lasso_coef": model_lasso.coef_ }) lasso_cols =col_df[col_df.lasso_coef ==0].col_name.tolist() else: model_lasso = Lasso(alpha=alpha) model_lasso.fit(X_train, y_train) col_df = pd.DataFrame({ "col_name": X_train.columns, "lasso_coef": model_lasso.coef_ }) lasso_cols =col_df[col_df.lasso_coef ==0].col_name.tolist() feature_cols = [pval_cols,coef_cols,pval_and_coef_cols,mi_cols,corr_u_cols,corr_l_cols,vif_cols,lasso_cols] for col in feature_cols: try: st.write(f"{col}",X_train.drop(columns = col)) except: st.write(f"error IN col") feature_cols_name = ["pval_cols","coef_cols","pval_and_coef_cols","mi_cols","corr_u_cols","corr_l_cols","vif_cols","lasso_cols"] st.write("feature_cols", vif_cols) for i,j in enumerate(feature_cols): evaluationer.evaluation(f"{feature_cols_name[i]} dropped" ,X_train.drop(columns = j),X_test.drop(columns = j),y_train,y_test,model_reg,method = root_mean_squared_error,eva = "reg") return evaluationer.reg_evaluation_df