test_optimized_thresholds_effectiveness.py

import EncoderFactory
from DatasetManager import DatasetManager

import pandas as pd
import numpy as np

from sklearn.metrics import roc_auc_score, precision_recall_fscore_support, confusion_matrix
from sklearn.pipeline import FeatureUnion

import time
import os
import sys
import csv
from sys import argv
import pickle


def calculate_cost(x, costs):
    return costs[int(x['prediction']), int(x['actual'])](x)

def calculate_cost_baseline(x, costs):
    return costs[0, int(x['actual'])](x)

dataset_name = argv[1]
predictions_dir = argv[2]
conf_threshold_dir = argv[3]
results_dir = argv[4]

method = "opt_threshold"

# create results directory
if not os.path.exists(os.path.join(results_dir)):
    os.makedirs(os.path.join(results_dir))
    
# load predictions    
dt_preds = pd.read_csv(os.path.join(predictions_dir, "preds_%s.csv" % dataset_name), sep=";")

# write results to file
out_filename = os.path.join(results_dir, "results_%s_%s.csv" % (dataset_name, method))
with open(out_filename, 'w') as fout:
    writer = csv.writer(fout, delimiter=';', quotechar='', quoting=csv.QUOTE_NONE)
    writer.writerow(["dataset", "method", "metric", "value", "c_miss", "c_action", "c_postpone", "eff", "early_type", "threshold"])

    c_postpone_weight = 0
    cost_weights = [(1,1), (2,1), (3,1), (5,1), (10,1), (20,1), (40, 1)]
    effectivenesses = [0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0]
    for c_miss_weight, c_action_weight in cost_weights:
        for eff in effectivenesses:
            for early_type in ["const", "linear"]:

                c_miss = c_miss_weight / (c_miss_weight + c_action_weight)
                c_action = c_action_weight / (c_miss_weight + c_action_weight)

                if early_type == "linear":
                    costs = np.matrix([[lambda x: 0,
                                          lambda x: c_miss],
                                         [lambda x: c_action,
                                          lambda x: c_action + (1 - eff * (1 - (x['prefix_nr']-1) / x['case_length'])) * c_miss
                                         ]])
                else:
                    costs = np.matrix([[lambda x: 0,
                                          lambda x: c_miss],
                                         [lambda x: c_action,
                                          lambda x: c_action + c_miss * (1-eff)
                                         ]])
                # load the optimal confidence threshold
                conf_file = os.path.join(conf_threshold_dir, "optimal_confs_%s_%s_%s_%s_%s_%s.pickle" % (dataset_name, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type))

                with open(conf_file, "rb") as fin:
                    conf_threshold = pickle.load(fin)['conf_threshold']

                # trigger alarms according to conf_threshold
                dt_final = pd.DataFrame()
                unprocessed_case_ids = set(dt_preds.case_id.unique())
                for nr_events in range(1, dt_preds.prefix_nr.max() + 1):
                    tmp = dt_preds[(dt_preds.case_id.isin(unprocessed_case_ids)) & (dt_preds.prefix_nr == nr_events)]
                    tmp = tmp[tmp.predicted_proba >= conf_threshold]
                    tmp["prediction"] = 1
                    dt_final = pd.concat([dt_final, tmp], axis=0)
                    unprocessed_case_ids = unprocessed_case_ids.difference(tmp.case_id)
                tmp = dt_preds[(dt_preds.case_id.isin(unprocessed_case_ids)) & (dt_preds.prefix_nr == 1)]
                tmp["prediction"] = 0
                dt_final = pd.concat([dt_final, tmp], axis=0)

                case_lengths = dt_preds.groupby("case_id").prefix_nr.max().reset_index()
                case_lengths.columns = ["case_id", "case_length"]
                dt_final = dt_final.merge(case_lengths)

                # calculate precision, recall etc.
                prec, rec, fscore, _ = precision_recall_fscore_support(dt_final.actual, dt_final.prediction, pos_label=1, average="binary")
                tn, fp, fn, tp = confusion_matrix(dt_final.actual, dt_final.prediction).ravel()

                # calculate earliness based on the "true alarms" only
                tmp = dt_final[(dt_final.prediction == 1) & (dt_final.actual == 1)]
                earliness = (1 - ((tmp.prefix_nr-1) / tmp.case_length))
                tmp = dt_final[(dt_final.prediction == 1)]
                earliness_alarms = (1 - ((tmp.prefix_nr-1) / tmp.case_length))

                writer.writerow([dataset_name, method, "prec", prec, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "rec", rec, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "fscore", fscore, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "tn", tn, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "fp", fp, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "fn", fn, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "tp", tp, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "earliness_mean", earliness.mean(), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "earliness_std", earliness.std(), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "earliness_alarms_mean", earliness_alarms.mean(), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "earliness_alarms_std", earliness_alarms.std(), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])

                cost = dt_final.apply(calculate_cost, costs=costs, axis=1).sum()
                writer.writerow([dataset_name, method, "cost", cost, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "cost_avg", cost / len(dt_final), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                
                cost_baseline = dt_final.apply(calculate_cost_baseline, costs=costs, axis=1).sum()
                writer.writerow([dataset_name, method, "cost_baseline", cost_baseline, c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])
                writer.writerow([dataset_name, method, "cost_avg_baseline", cost_baseline / len(dt_final), c_miss_weight, c_action_weight, c_postpone_weight, eff, early_type, conf_threshold])