easy-ml/feature/strategy_iv.py

# -*- coding:utf-8 -*-
"""
@author: yq
@time: 2024/1/2
@desc: iv值及单调性筛选类
"""
from itertools import combinations_with_replacement
from typing import List, Dict

import matplotlib.pyplot as plt
import numpy as np
import pandas as pd
import scorecardpy as sc
import seaborn as sns
from pandas.core.dtypes.common import is_numeric_dtype


from entitys import DataSplitEntity, CandidateFeatureEntity, DataPreparedEntity, DataFeatureEntity, MetricFucEntity
from init import f_get_save_path
from .feature_utils import f_judge_monto, f_get_corr, f_get_ivf
from .filter_strategy_base import FilterStrategyBase

plt.rcParams['figure.figsize'] = (8, 8)


class StrategyIv(FilterStrategyBase):

    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)

    def _f_save_var_trend(self, bins, x_columns_candidate, prefix):
        image_path_list = []
        for k in x_columns_candidate:
            bin_df = bins[k]
            # bin_df["bin"] = bin_df["bin"].apply(lambda x: re.sub(r"(\d+\.\d+)",
            #                                                      lambda m: "{:.2f}".format(float(m.group(0))), x))
            sc.woebin_plot(bin_df)
            path = f_get_save_path(f"{prefix}_{k}.png")
            plt.savefig(path)
            image_path_list.append(path)
        return image_path_list

    def _f_get_bins_by_breaks(self, data: pd.DataFrame, candidate_dict: Dict[str, CandidateFeatureEntity],
                              y_column=None):
        y_column = self.data_process_config.y_column if y_column is None else y_column
        special_values = self.data_process_config.special_values
        x_columns_candidate = list(candidate_dict.keys())
        breaks_list = {}
        for column, candidate in candidate_dict.items():
            breaks_list[column] = candidate.breaks_list
        bins = sc.woebin(data[x_columns_candidate + [y_column]], y=y_column, breaks_list=breaks_list,
                         special_values=special_values)
        return bins

    def _f_corr_filter(self, data: DataSplitEntity, candidate_dict: Dict[str, CandidateFeatureEntity]) -> List[str]:
        # 相关性剔除变量
        corr_threshold = self.data_process_config.corr_threshold
        train_data = data.train_data
        x_columns_candidate = list(candidate_dict.keys())

        bins = self._f_get_bins_by_breaks(train_data, candidate_dict)
        train_woe = sc.woebin_ply(train_data[x_columns_candidate], bins)
        corr_df = f_get_corr(train_woe)
        corr_dict = corr_df.to_dict()
        for column, corr in corr_dict.items():
            column = column.replace("_woe", "")
            if column not in x_columns_candidate:
                continue
            for challenger_column, challenger_corr in corr.items():
                challenger_column = challenger_column.replace("_woe", "")
                if challenger_corr < corr_threshold or column == challenger_column \
                        or challenger_column not in x_columns_candidate:
                    continue
                iv_max = candidate_dict[column].iv_max
                challenger_iv_max = candidate_dict[challenger_column].iv_max
                if iv_max > challenger_iv_max:
                    x_columns_candidate.remove(challenger_column)
                else:
                    x_columns_candidate.remove(column)
                    break
        return x_columns_candidate

    def _f_wide_filter(self, data: DataSplitEntity) -> Dict:
        # 粗筛变量
        train_data = data.train_data
        test_data = data.test_data
        special_values = self.data_process_config.special_values
        y_column = self.data_process_config.y_column
        iv_threshold_wide = self.data_process_config.iv_threshold_wide
        x_columns_candidate = self.data_process_config.x_columns_candidate
        if x_columns_candidate is None or len(x_columns_candidate) == 0:
            x_columns_candidate = train_data.columns.tolist()
            x_columns_candidate.remove(y_column)

        bins_train = sc.woebin(train_data[x_columns_candidate + [y_column]], y=y_column, special_values=special_values,
                               bin_num_limit=5)

        breaks_list = {}
        for column, bin in bins_train.items():
            breaks_list[column] = list(bin['breaks'])
        bins_test = None
        if test_data is not None and len(test_data) != 0:
            bins_test = sc.woebin(test_data[x_columns_candidate + [y_column]], y=y_column, breaks_list=breaks_list,
                                  special_values=special_values
                                  )
        bins_iv_dict = {}
        for column, bin_train in bins_train.items():
            train_iv = bin_train['total_iv'][0]
            test_iv = 0
            if bins_test is not None:
                bin_test = bins_test[column]
                test_iv = bin_test['total_iv'][0]
            iv_max = train_iv + test_iv
            if train_iv < iv_threshold_wide:
                continue
            bins_iv_dict[column] = {"iv_max": iv_max, "breaks_list": breaks_list[column]}
        return bins_iv_dict

    def _f_get_best_bins_numeric(self, data: DataSplitEntity, x_column: str):
        # 贪婪搜索【训练集】及【测试集】加起来【iv】值最高的且【单调】的分箱
        interval = self.data_process_config.bin_search_interval
        iv_threshold = self.data_process_config.iv_threshold
        special_values = self.data_process_config.get_special_values(x_column)
        y_column = self.data_process_config.y_column
        sample_rate = self.data_process_config.sample_rate

        def _n0(x):
            return sum(x == 0)

        def _n1(x):
            return sum(x == 1)

        def _f_distribute_balls(balls, boxes):
            # 计算在 balls - 1 个空位中放入 boxes - 1 个隔板的方法数
            total_ways = combinations_with_replacement(range(balls + boxes - 1), boxes - 1)
            distribute_list = []
            # 遍历所有可能的隔板位置
            for combo in total_ways:
                # 根据隔板位置分配球
                distribution = [0] * boxes
                start = 0
                for i, divider in enumerate(combo):
                    distribution[i] = divider - start + 1
                    start = divider + 1
                distribution[-1] = balls - start  # 最后一个箱子的球数
                # 确保每个箱子至少有一个球
                if all(x > 0 for x in distribution):
                    distribute_list.append(distribution)
            return distribute_list

        def _get_sv_bins(df, x_column, y_column, special_values):
            # special_values_bins
            sv_bin_list = []
            for special in special_values:
                dtm = df[df[x_column] == special]
                if len(dtm) != 0:
                    dtm['bin'] = [str(special)] * len(dtm)
                    binning = dtm.groupby(['bin'], group_keys=False)[y_column].agg(
                        [_n0, _n1]).reset_index().rename(columns={'_n0': 'good', '_n1': 'bad'})
                    binning['is_special_values'] = [True] * len(binning)
                    sv_bin_list.append(binning)
            return sv_bin_list

        def _get_bins(df, x_column, y_column, breaks_list):
            dtm = pd.DataFrame({'y': df[y_column], 'value': df[x_column]})
            bstbrks = [-np.inf] + breaks_list + [np.inf]
            labels = ['[{},{})'.format(bstbrks[i], bstbrks[i + 1]) for i in range(len(bstbrks) - 1)]
            dtm.loc[:, 'bin'] = pd.cut(dtm['value'], bstbrks, right=False, labels=labels)
            dtm['bin'] = dtm['bin'].astype(str)
            bins = dtm.groupby(['bin'], group_keys=False)['y'].agg([_n0, _n1]) \
                .reset_index().rename(columns={'_n0': 'good', '_n1': 'bad'})
            bins['is_special_values'] = [False] * len(bins)
            return bins

        def _calculation_iv(bins):
            bins['count'] = bins['good'] + bins['bad']
            bins['badprob'] = bins['bad'] / bins['count']
            # 单调性判断
            bad_prob = bins[bins['is_special_values'] == False]['badprob'].values.tolist()
            if not f_judge_monto(bad_prob):
                return -1
            # 计算iv
            infovalue = pd.DataFrame({'good': bins['good'], 'bad': bins['bad']}) \
                .replace(0, 0.9) \
                .assign(
                DistrBad=lambda x: x.bad / sum(x.bad),
                DistrGood=lambda x: x.good / sum(x.good)
            ) \
                .assign(iv=lambda x: (x.DistrBad - x.DistrGood) * np.log(x.DistrBad / x.DistrGood)) \
                .iv
            bins['bin_iv'] = infovalue
            bins['total_iv'] = bins['bin_iv'].sum()
            iv = bins['total_iv'].values[0]
            return iv

        def _f_sampling(distribute_list: list, sample_rate: float):
            # 采样，完全贪婪搜索耗时太长
            sampled_list = distribute_list[::int(1 / sample_rate)]
            return sampled_list

        train_data = data.train_data
        train_data_filter = train_data[~train_data[x_column].isin(special_values)]
        train_data_filter = train_data_filter.sort_values(by=x_column, ascending=True)
        train_data_x = train_data_filter[x_column]

        test_data = data.test_data
        test_data_filter = None
        if test_data is not None and len(test_data) != 0:
            test_data_filter = test_data[~test_data[x_column].isin(special_values)]
            test_data_filter = test_data_filter.sort_values(by=x_column, ascending=True)

        # 构造数据切分点
        # 计算 2 - 5 箱的情况
        distribute_list = []
        points_list = []
        for bin_num in list(range(2, 6)):
            distribute_list_cache = _f_distribute_balls(int(1 / interval), bin_num)
            # 4箱及以上得采样，不然耗时太久
            sample_num = 1000 * sample_rate
            if sample_rate <= 0.15:
                sample_num *= 2
            if bin_num == 4 and len(distribute_list_cache) >= sample_num:
                distribute_list_cache = _f_sampling(distribute_list_cache, sample_num / len(distribute_list_cache))
            sample_num = 4000 * sample_rate
            if bin_num == 5 and len(distribute_list_cache) >= sample_num:
                distribute_list_cache = _f_sampling(distribute_list_cache, sample_num / len(distribute_list_cache))
            distribute_list.extend(distribute_list_cache)
        for distribute in distribute_list:
            point_list_cache = []
            point_percentile_list = [sum(distribute[0:idx + 1]) * interval for idx, _ in enumerate(distribute[0:-1])]
            for point_percentile in point_percentile_list:
                point = train_data_x.iloc[int(len(train_data_x) * point_percentile)]
                if point not in point_list_cache:
                    point_list_cache.append(point)
            if point_list_cache not in points_list:
                points_list.append(point_list_cache)
        # IV与单调性过滤
        iv_max = 0
        breaks_list = []
        train_sv_bin_list = _get_sv_bins(train_data, x_column, y_column, special_values)
        test_sv_bin_list = None
        if test_data_filter is not None:
            test_sv_bin_list = _get_sv_bins(test_data, x_column, y_column, special_values)
        from tqdm import tqdm
        for point_list in tqdm(points_list):
            train_bins = _get_bins(train_data_filter, x_column, y_column, point_list)
            # 与special_values合并计算iv
            for sv_bin in train_sv_bin_list:
                train_bins = pd.concat((train_bins, sv_bin))
            train_iv = _calculation_iv(train_bins)
            # 只限制训练集的单调性与iv值大小
            if train_iv < iv_threshold:
                continue

            test_iv = 0
            if test_data_filter is not None:
                test_bins = _get_bins(test_data_filter, x_column, y_column, point_list)
                for sv_bin in test_sv_bin_list:
                    test_bins = pd.concat((test_bins, sv_bin))
                test_iv = _calculation_iv(test_bins)
            iv = train_iv + test_iv
            if iv > iv_max:
                iv_max = iv
                breaks_list = point_list

        return iv_max, breaks_list

    def filter(self, data: DataSplitEntity, *args, **kwargs) -> Dict[str, CandidateFeatureEntity]:
        # 粗筛
        bins_iv_dict = self._f_wide_filter(data)
        x_columns_candidate = list(bins_iv_dict.keys())
        candidate_num = self.data_process_config.candidate_num
        candidate_dict: Dict[str, CandidateFeatureEntity] = {}
        for x_column in x_columns_candidate:
            if is_numeric_dtype(data.train_data[x_column]):
                iv_max, breaks_list = self._f_get_best_bins_numeric(data, x_column)
                candidate_dict[x_column] = CandidateFeatureEntity(x_column, breaks_list, iv_max)
            else:
                # 字符型暂时用scorecardpy来处理
                candidate_dict[x_column] = CandidateFeatureEntity(x_column, bins_iv_dict[x_column]["breaks_list"],
                                                                  bins_iv_dict[x_column]["iv_max"])

        # 相关性进一步剔除变量
        x_columns_candidate = self._f_corr_filter(data, candidate_dict)
        candidate_list: List[CandidateFeatureEntity] = []
        for x_column, v in candidate_dict.items():
            if x_column in x_columns_candidate:
                candidate_list.append(v)

        candidate_list.sort(key=lambda x: x.iv_max, reverse=True)
        candidate_list = candidate_list[0:candidate_num]
        candidate_dict = {}
        for candidate in candidate_list:
            candidate_dict[candidate.x_column] = candidate
        return candidate_dict

    def feature_generate(self, data: DataSplitEntity, candidate_dict: Dict[str, CandidateFeatureEntity], *args,
                         **kwargs) -> DataPreparedEntity:
        train_data = data.train_data
        val_data = data.val_data
        test_data = data.test_data
        y_column = self.data_process_config.y_column
        x_columns_candidate = list(candidate_dict.keys())
        bins = self._f_get_bins_by_breaks(train_data, candidate_dict)

        train_woe = sc.woebin_ply(train_data[x_columns_candidate], bins)
        train_data_feature = DataFeatureEntity(pd.concat((train_woe, train_data[y_column]), axis=1),
                                               train_woe.columns.tolist(), y_column)

        val_data_feature = None
        if val_data is not None and len(val_data) != 0:
            val_woe = sc.woebin_ply(val_data[x_columns_candidate], bins)
            val_data_feature = DataFeatureEntity(pd.concat((val_woe, val_data[y_column]), axis=1),
                                                 train_woe.columns.tolist(), y_column)

        test_data_feature = None
        if test_data is not None and len(test_data) != 0:
            test_woe = sc.woebin_ply(test_data[x_columns_candidate], bins)
            test_data_feature = DataFeatureEntity(pd.concat((test_woe, test_data[y_column]), axis=1),
                                                  train_woe.columns.tolist(), y_column)
        return DataPreparedEntity(train_data_feature, val_data_feature, test_data_feature)

    def feature_report(self, data: DataSplitEntity, candidate_dict: Dict[str, CandidateFeatureEntity], *args,
                       **kwargs) -> Dict[str, MetricFucEntity]:
        y_column = self.data_process_config.y_column
        x_columns_candidate = list(candidate_dict.keys())
        train_data = data.train_data
        test_data = data.test_data

        metric_value_dict = {}
        # 样本分布
        metric_value_dict["样本分布"] = MetricFucEntity(table=data.get_distribution(y_column), table_font_size=12,
                                                    table_cell_width=3)
        # 变量iv及psi
        train_bins = self._f_get_bins_by_breaks(train_data, candidate_dict)
        train_iv = {key_: [round(value_['total_iv'].max(), 4)] for key_, value_ in train_bins.items()}
        train_iv = pd.DataFrame.from_dict(train_iv, orient='index', columns=['IV']).reset_index()
        train_iv = train_iv.sort_values('IV', ascending=False).reset_index(drop=True)
        train_iv.columns = ['变量', 'IV']

        if test_data is not None and len(test_data) != 0:
            # 计算psi仅需把y改成识别各自训练集测试集即可
            psi_df = pd.concat((train_data, test_data))
            psi_df["#target#"] = [1] * len(train_data) + [0] * len(test_data)
            psi = self._f_get_bins_by_breaks(psi_df, candidate_dict, y_column="#target#")
            psi = {key_: [round(value_['total_iv'].max(), 4)] for key_, value_ in psi.items()}
            psi = pd.DataFrame.from_dict(psi, orient='index', columns=['psi']).reset_index()
            psi.columns = ['变量', 'psi']
            train_iv = pd.merge(train_iv, psi, on="变量", how="left")

            # 变量趋势-测试集
            test_bins = self._f_get_bins_by_breaks(test_data, candidate_dict)
            image_path_list = self._f_save_var_trend(test_bins, x_columns_candidate, "test")
            metric_value_dict["变量趋势-测试集"] = MetricFucEntity(image_path=image_path_list, image_size=4)

        metric_value_dict["变量iv"] = MetricFucEntity(table=train_iv, table_font_size=12, table_cell_width=3)
        # 变量趋势-训练集
        image_path_list = self._f_save_var_trend(train_bins, x_columns_candidate, "train")
        metric_value_dict["变量趋势-训练集"] = MetricFucEntity(image_path=image_path_list, image_size=4)
        # 变量有效性
        train_woe = sc.woebin_ply(train_data[x_columns_candidate], train_bins)
        train_corr = f_get_corr(train_woe)
        plt.figure(figsize=(12, 12))
        sns.heatmap(train_corr, vmax=1, square=True, cmap='RdBu', annot=True)
        plt.title('Variables Correlation', fontsize=15)
        plt.yticks(rotation=0)
        plt.xticks(rotation=90)
        path = f_get_save_path(f"var_corr.png")
        plt.savefig(path)
        # vif
        vif_df = f_get_ivf(train_woe)
        metric_value_dict["变量有效性"] = MetricFucEntity(image_path=path, table=vif_df)

        return metric_value_dict