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threshold.py
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threshold.py
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from sklearn import metrics
import itertools
import argparse
import torch
import numpy as np
import pandas as pd
from metric_utils import update_info_dict, get_metric
from collections import defaultdict
from tqdm import tqdm
def binary_threshold(args, labels=None):
preds = pd.read_csv(args.preds_file, header=None).values
labels = pd.read_csv(args.labels_file, header=None).values
avg_metric, best_thresholds, category_metrics, category_best_info_dicts = _binary_threshold(preds, labels, args.metric, args.micro)
print(avg_metric / preds.shape[1])
np.savetxt('best_binary_thresholds_{}_{}.txt'.format('micro' if args.micro else 'macro', args.metric), (best_thresholds))
def _binary_threshold(preds, labels, metric, micro, global_tweaks=1000, debug=False, heads_per_class=1, class_single_threshold=False):
avg_metric = 0
best_thresholds = []
info_dicts = []
category_metrics = []
# Compute threshold per class... *unless* multiple heads per class and one threshold required.
num_categories = labels.shape[1]
for category in range(num_categories):
category_best_threshold = category_best_metric = 0
for threshold in np.linspace(0.005, 1, 200):
if heads_per_class > 1 and class_single_threshold:
info_dict = update_info_dict(defaultdict(int), labels[:, (category * heads_per_class):(category+1)*heads_per_class], preds[:, (category * heads_per_class):(category+1)*heads_per_class], threshold=threshold)
else:
info_dict = update_info_dict(defaultdict(int), labels[:, category], preds[:, category], threshold=threshold)
metric_score = get_metric(info_dict, metric, micro)
if metric_score > category_best_metric or category_best_metric==0:
category_best_metric, category_best_threshold, category_best_info_dict = metric_score, threshold, info_dict
info_dicts.append(category_best_info_dict)
category_metrics.append(category_best_metric)
best_thresholds.append(category_best_threshold)
# HACK -- use micro average here, even if not elsewhere
micro = True
best_metric = get_metric(info_dicts, metric, micro)
# HACK: Attempt to tune thresholds simultaneously... for overall micro average
if num_categories < 2:
global_tweaks = 0
if debug and global_tweaks > 0:
print('best after invididual thresholds (micro %s)' % micro)
print(best_thresholds)
print(get_metric(info_dicts, metric, micro))
for i in range(global_tweaks):
# Choose random category
category = np.random.randint(num_categories)
curr_threshold = best_thresholds[category]
# tweak randomly
new_threshold = curr_threshold + (0.08 * (np.random.random() - 0.5))
if heads_per_class > 1 and class_single_threshold:
info_dict = update_info_dict(defaultdict(int), labels[:, (category * heads_per_class):(category+1)*heads_per_class], preds[:, (category * heads_per_class):(category+1)*heads_per_class], threshold=new_threshold)
else:
info_dict = update_info_dict(defaultdict(int), labels[:, category], preds[:, category], threshold=new_threshold)
old_dict = info_dicts[category]
info_dicts[category] = info_dict
# compute *global* metrics
metric_score = get_metric(info_dicts, metric, micro)
# save new threshold if global metrics improve
if metric_score > best_metric:
# print('Better threshold %.3f for category %d' % (new_threshold, category))
best_thresholds[category] = round(new_threshold, 3)
best_metric = metric_score
else:
info_dicts[category] = old_dict
if debug and global_tweaks > 0:
print('final thresholds')
print(best_thresholds)
print(get_metric(info_dicts, metric, micro))
# OK, now *if* we used multiple heads per class (same threshold) copy these back out to final answers
if heads_per_class > 1 and class_single_threshold:
best_thresholds = np.concatenate([[best_thresholds[i]]*heads_per_class for i in range(num_categories)])
else:
best_thresholds = np.array(best_thresholds)
# print(best_thresholds)
return get_metric(info_dicts, metric, micro), best_thresholds, category_metrics, info_dicts
def get_auc(args):
preds = pd.read_csv(args.preds_file, header=None).values
labels = pd.read_csv(args.labels_file, header=None).values.astype(int)
aucs = []
for category in range(preds.shape[1]):
fpr, tpr, thresholds = metrics.roc_curve(labels[:, category], preds[:, category], pos_label=1)
aucs.append(metrics.auc(fpr, tpr))
for idx, auc in enumerate(aucs):
print('{}: {}\n'.format(idx, auc))
def neutral_threshold_scalar_output(args):
preds = pd.read_csv(args.preds_file, header=None, names=['preds'])
labels = pd.read_csv(args.labels_file, header=None, names=['labels'])
assert preds.shape[1] == labels.shape[1] == 1, "Neutral thresholding only available for single category labels"
labels['positive'] = labels['labels'].apply(lambda s: int(s == 1))
labels['negative'] = labels['labels'].apply(lambda s: int(s == 0))
labels['neutral'] = ((labels['positive'] == labels['negative']).sum() == 2).astype(int)
labels_vals = labels[['positive', 'negative', 'neutral']].values
best_pos = best_neg = best_acc = 0
for pos, neg in tqdm(itertools.product(np.linspace(0.005, 1, 200), repeat=2), total=200 ** 2, unit='setting'):
if neg > pos:
continue
new_df = pd.DataFrame()
new_df['pos'] = preds['preds'].apply(lambda s: int(s > pos))
new_df['neg'] = preds['preds'].apply(lambda s: int(s < neg))
new_df['neutral'] = ((new_df['pos'] == new_df['neg']).sum() == 2).astype(int)
new_df_vals = new_df.values
acc = 0
for new_row, label_row in zip(new_df_vals, labels_vals):
acc += int((new_row == label_row).sum() == 3)
acc /= float(labels.shape[0])
if acc > best_acc:
best_pos, best_neg, best_acc = pos, neg, acc
print("Best acc:", best_acc, "Best pos:", best_pos, "Best neg:", best_neg)
np.savetxt('best_neutral_thresholds.txt', np.array([best_pos, best_neg]))
def neutral_threshold_two_output(args):
preds = pd.read_csv(args.preds_file, header=None, names=['positive', 'negative']) # ordered positive, negative
labels = pd.read_csv(args.labels_file, header=None, names=['positive', 'negative'])
labels['neutral'] = labels['positive'] == labels['negative']
labels_vals = labels.values
best_pos = best_neg = best_acc = 0
for pos, neg in tqdm(itertools.product(np.linspace(0.005, 1, 200), repeat=2), total=200 ** 2, unit='setting'):
new_df = pd.DataFrame()
new_df['pos'] = preds['positive'].apply(lambda s: int(s > pos))
new_df['neg'] = preds['negative'].apply(lambda s: int(s > neg))
new_df['neutral'] = (new_df['pos'] == new_df['neg']).astype(int)
new_df_vals = new_df.values
acc = 0
for new_row, label_row in zip(new_df_vals, labels_vals):
if new_row[0] == new_row[1] == 1:
new_row[0] = new_row[1] = 0
acc += int((new_row == label_row).sum() == 3)
acc /= float(labels.shape[0])
if acc > best_acc:
best_pos, best_neg, best_acc = pos, neg, acc
print("Best acc:", best_acc, "Best pos:", best_pos, "Best neg:", best_neg)
np.savetxt('best_neutral_thresholds.txt', np.array([best_pos, best_neg]))
def neutral_threshold_two_output(args):
preds = pd.read_csv(args.preds_file, header=None, names=['positive', 'negative']) # ordered positive, negative
labels = pd.read_csv(args.labels_file, header=None, names=['positive', 'negative'])
best_acc, (best_pos, best_neg) = _neutral_threshold_two_output(preds.values, labels.values)
print("Best acc:", best_acc, "Best pos:", best_pos, "Best neg:", best_neg)
np.savetxt('best_neutral_thresholds.txt', np.array([best_pos, best_neg]))
def _neutral_threshold_two_output(preds, labels, threshold_granularity=30):
neutral_labels = (labels[:,0] == labels[:,1]).astype(int).reshape(-1, 1)
labels_vals = np.concatenate([labels[:,:2], neutral_labels], axis=1)
best_0 = best_1 = best_acc = 0
for t0, t1 in tqdm(itertools.product(np.linspace(0.005, 1, threshold_granularity), repeat=2), total=threshold_granularity ** 2, unit='setting'):
t0, t1 = round(t0, 3), round(t1, 3)
new_df = pd.DataFrame()
new_df['0'] = (preds[:,0]>t0).astype(int)
new_df['1'] = (preds[:,1]>t1).astype(int)
new_df['neutral'] = (new_df['0'] == new_df['1']).astype(int)
new_df_vals = new_df[['0','1','neutral']].values
acc = 0
for new_row, label_row in zip(new_df_vals, labels_vals):
if new_row[0] == new_row[1] == 1:
new_row[0] = new_row[1] = 0
acc += int((new_row == label_row).sum() == 3)
acc /= labels_vals.shape[0]
if acc > best_acc:
best_0, best_1, best_acc = t0, t1, acc
return best_acc, (best_0, best_1)
def main():
task_dict = {
'auc' : get_auc,
'binary' : binary_threshold,
'neutral' : neutral_threshold_two_output,
'scalar' : neutral_threshold_scalar_output,
}
parser = argparse.ArgumentParser("Tools for optimizing outputs through ROC/AUC analysis")
parser.add_argument('--task', type=str, required=True, help='what do you want to do?')
parser.add_argument('--preds-file', type=str, help='path to predictions file')
parser.add_argument('--labels-file', type=str, help='path to labels file')
parser.add_argument('--metric', type=str, default='f1', help='which metric to analyze/optimize')
parser.add_argument('--micro', action='store_true', help='whether to micro-average metric')
args = parser.parse_args()
task_dict[args.task](args)
if __name__ == '__main__':
main()