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utils.py
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utils.py
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import ipdb
from collections import Counter
import string
import re
def mask_inputs(inputs, mask, mask_value = -1e30):
return inputs + mask_value * (1 - mask)
def convert_tokens(eval_file, qa_id, pp1, pp2):
answer_dict = {}
remapped_dict = {}
for qid, p1, p2 in zip(qa_id, pp1, pp2):
context = eval_file[str(qid)]["context"]
spans = eval_file[str(qid)]["spans"]
uuid = eval_file[str(qid)]["uuid"]
start_idx = spans[p1][0]
end_idx = spans[p2][1]
answer_dict[str(qid)] = context[start_idx: end_idx]
remapped_dict[uuid] = context[start_idx: end_idx]
return answer_dict, remapped_dict
def evaluate(eval_file, answer_dict):
f1 = exact_match = total = 0
for key, value in answer_dict.items():
total += 1
ground_truths = eval_file[key]["answers"]
prediction = value
exact_match += metric_max_over_ground_truths(
exact_match_score, prediction, ground_truths)
f1 += metric_max_over_ground_truths(f1_score,
prediction, ground_truths)
exact_match = 100.0 * exact_match / total
f1 = 100.0 * f1 / total
return {'exact_match': exact_match, 'f1': f1}
def evaluate_single(eval_file, answer_dict):
correct_keys = []
all_predictions = {}
for key, value in answer_dict.items():
# ipdb.set_trace()
ground_truths = eval_file[key]['answers']
prediction = value
em = metric_max_over_ground_truths(exact_match_score, prediction, ground_truths)
if em > 0:
correct_keys.append(key)
all_predictions[key] = prediction
return correct_keys, all_predictions
def normalize_answer(s):
def remove_articles(text):
return re.sub(r'\b(a|an|the)\b', ' ', text)
def white_space_fix(text):
return ' '.join(text.split())
def remove_punc(text):
exclude = set(string.punctuation)
return ''.join(ch for ch in text if ch not in exclude)
def lower(text):
return text.lower()
return white_space_fix(remove_articles(remove_punc(lower(s))))
def f1_score(prediction, ground_truth):
prediction_tokens = normalize_answer(prediction).split()
ground_truth_tokens = normalize_answer(ground_truth).split()
common = Counter(prediction_tokens) & Counter(ground_truth_tokens)
num_same = sum(common.values())
if num_same == 0:
return 0
precision = 1.0 * num_same / len(prediction_tokens)
recall = 1.0 * num_same / len(ground_truth_tokens)
f1 = (2 * precision * recall) / (precision + recall)
return f1
def exact_match_score(prediction, ground_truth):
return (normalize_answer(prediction) == normalize_answer(ground_truth))
def metric_max_over_ground_truths(metric_fn, prediction, ground_truths):
scores_for_ground_truths = []
for ground_truth in ground_truths:
score = metric_fn(prediction, ground_truth)
scores_for_ground_truths.append(score)
return max(scores_for_ground_truths)