def compute_corr_ver_2_week_1(dep_id, seg_id, season_tf, significance_level, df, year_input, date_ss): y_dates = date_ss y_col = '_'.join([str(dep_id), str(seg_id)]) + '_rv' # Get revenue data name df1_full = lib.get_df_by_dates(y_dates, df) y_series = df1_full[y_col] cols = set(df.columns) - {'date', 'day_of_week'} result_df = pd.DataFrame(columns=['col', "cov_col", 'lag', 'cov_value', "conf_interval_0", "conf_interval_1", "adj_corr_col"]) # x is some col with some lag index = 0 dict_df = {} dict_df["0_2"] = df1_full[df1_full.columns] dict_df["0_1"] = df1_full[df1_full.columns] for lag in [1, 7, 365]: col_dates = lib.get_dates_lag(y_dates, lag) df2 = lib.get_df_by_dates(col_dates, df) dict_df[str(lag) + "_2"] = df2[df2.columns] dict_df[str(lag) + "_1"] = df1_full[(len(df1_full) - len(df2)) : ] for i, col in enumerate(cols): if lib.check_total(y_col, col): continue for lag in [0, 1, 7, 365]: if (col.split('_')[0] != str(dep_id)) and (lag not in [0, 1]): continue if (col.split('_')[0] == str(dep_id)) and (lag in [0, 1]): continue df1 = dict_df[str(lag) + "_1"] df2 = dict_df[str(lag) + "_2"] col_series = df2[col] y_series_rm = y_series[-len(col_series):] y_series_rm, col_series = lib.remove_outlier(y_series_rm, col_series) cap_arr = compute_capture_arr_ver_2(y_col, col, 1, 1, df1, df2, cols) cov_val = 1 - lib.compute_error(y_series_rm, col_series, cap_arr['capture'], cap_arr['ARR']) #=========================== if lag == 365: y_365_lag = df2[col] date_y_365_lag_not_null = df2[~y_365_lag.isnull()]['date'] if len(date_y_365_lag_not_null.dt.year.unique()) < 3: cov_val = -99 # explaination is big #=========================== if "rn" in col: conf_interval_0, conf_interval_1 = cov_val, cov_val else: conf_interval_0, conf_interval_1 = lib.compute_interval(cov_val, significance_level) result_df.loc[index] = [y_col, col, lag, cov_val, conf_interval_0, conf_interval_1, col + "_" + str(lag)] index += 1 result_df = result_df.fillna(-99) return result_df.sort_values('cov_value', ascending=False)
def compute_corr_ver_2(dep_id, seg_id, season_tf, num_day, day_of_week, significance_level, df): """ Compute explanation (1 -error) for all pair of deparment_segment in one hotel :param dep_id: department id :param seg_id: segment id :param season_tf: season timeframe :param day_of_week: day of week range 0-6 :param df: Dataframe contain all data of one hotel :param significance_level: significance to compute confidence interval :return: """ dates = df['date'].sort_values(ascending=False) season_dates = pd.Series(lib.get_season_dates_from_tf(season_tf, dates)) y_dates = list(season_dates[season_dates.dt.weekday == day_of_week]) y_col = '_'.join([str(dep_id), str(seg_id)]) + '_rv' # Get revenue data name cols = set(df.columns) - {'date', 'day_of_week'} result_df = pd.DataFrame(columns=['col', "cov_col", 'lag', 'cov_value', "conf_interval_0", "conf_interval_1", "adj_corr_col"]) # x is some col with some lag index = 0 for i, col in enumerate(cols): for lag in [0, 1, 7, 14, 21, 30, 365]: if (col.split('_')[0] != str(dep_id)) and (lag not in [0, 1]): continue if (col.split('_')[0] == str(dep_id)) and (lag in [0, 1]): continue y_series, col_series = get_series_to_compute_corr(y_col, col, lag, y_dates, df) cap_arr = compute_capture_arr(y_col, col, lag, season_tf, num_day, day_of_week, df) y_series_rm, col_series = lib.remove_outlier(y_series, col_series) cov_val = 1 - lib.compute_error(y_series_rm, col_series, cap_arr['capture'], cap_arr['ARR']) if "rn" in col: conf_interval_0, conf_interval_1 = cov_val, cov_val else: conf_interval_0, conf_interval_1 = lib.compute_interval(cov_val, significance_level) result_df.loc[index] = [y_col, col, lag, cov_val, conf_interval_0, conf_interval_1, col + "_" + str(lag)] index += 1 result_df = result_df.fillna(-99) return result_df.sort_values('cov_value', ascending=False)
def compute_corr_ver_2_1_cruise(dep_id, seg_id, season_tf, num_day, day_of_week, significance_level, df, date_ss, cruise): """ Compute explanation (1 -error) for all pair of deparment_segment in one hotel :param dep_id: department id :param seg_id: segment id :param season_tf: season timeframe :param day_of_week: day of week range 0-6 :param df: Dataframe contain all data of one hotel :param significance_level: significance to compute confidence interval :return: """ y_weekdays = cruise.cruiseday_list(date_ss) y_dates_full = [date_ss[i] for i, d in enumerate(y_weekdays) if d == day_of_week] y_dates = y_dates_full[-(min(num_day, len(y_dates_full))):] y_col = '_'.join([str(dep_id), str(seg_id)]) + '_rv' # Get revenue data name df1_full = lib.get_df_by_dates(y_dates_full, df) y_series = df1_full[y_col] df1 = lib.get_df_by_dates(y_dates, df1_full) cols = set(df.columns) - {'date', 'day_of_week'} result_df = pd.DataFrame(columns=['col', "cov_col", 'lag', 'cov_value', "conf_interval_0", "conf_interval_1", "adj_corr_col"]) # x is some col with some lag index = 0 dict_df = {} dict_df[0] = df1[df1.columns] dict_df["0_full"] = df1_full[df1_full.columns] for lag in [1, 7, 365]: dates = lib.get_dates_lag(y_dates, lag) dates_full = lib.get_dates_lag(y_dates_full, lag) df2_full = lib.get_df_by_dates(dates_full, df) df2 = lib.get_df_by_dates(dates, df2_full) dict_df[lag] = df2 dict_df[str(lag) + "_full"] = df2_full for i, col in enumerate(cols): if lib.check_total(y_col, col): continue for lag in [0, 1, 7, 365]: if (col.split('_')[0] != str(dep_id)) and (lag not in [0, 1]): continue if (col.split('_')[0] == str(dep_id)) and (lag in [0, 1]): continue col_series = dict_df[str(lag) + "_full"][col] y_series_r = y_series[-len(col_series):] df2 = dict_df[lag] y_series_rm, col_series_rm = lib.remove_outlier(y_series_r, col_series) cap_arr = compute_capture_arr_ver_2(y_col, col, 1, 1, df1, df2, cols) cov_val = 1 - lib.compute_error(y_series_rm, col_series_rm, cap_arr['capture'], cap_arr['ARR']) if y_col == "69_107_rv" and day_of_week == 6 and season_tf == [('01-01', '02-17'), ('12-23', '12-31')] and lag == 0: print('test', col) with open('test_caset_69_107_{0}_{1}.txt'.format(season_tf, col), 'w') as f: f.write("\ny_series: {0}\ncol_series:{1}\ny_rm:{2}\ncol_rm: {3}\ncap_arr: {4}\cov_val:{5}".format( \ ", ".join(map(str,y_series_r)), ", ".join(map(str, col_series)), ", ".join(map(str, y_series_rm)), ", ".join(map(str, col_series_rm)), str(cap_arr), cov_val)) #=========================== if lag == 365: y_365_lag = df2[col] date_y_365_lag_not_null = df2[~y_365_lag.isnull()]['date'] if len(date_y_365_lag_not_null.dt.year.unique()) < 3: cov_val = -99 # explaination is big #=========================== if "rn" in col: conf_interval_0, conf_interval_1 = cov_val, cov_val else: conf_interval_0, conf_interval_1 = lib.compute_interval(cov_val, significance_level) result_df.loc[index] = [y_col, col, lag, cov_val, conf_interval_0, conf_interval_1, col + "_" + str(lag)] index += 1 result_df = result_df.fillna(-99) return result_df.sort_values('cov_value', ascending=False)