File size: 7,838 Bytes
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import re
from sklearn.metrics import accuracy_score, f1_score, classification_report, confusion_matrix
from collections import Counter, defaultdict
from datetime import datetime
import numpy as np
def extract_humor_label_from_output(model_output):
if not model_output:
return None, False, "empty_output"
valid_labels = ['true', 'false']
cleaned_output = model_output.strip().lower()
patterns = [
r'^(true|false)$',
r'\b(true|false)\b',
r'answer[:\s]*(true|false)',
r'final[:\s]*(true|false)',
r'(true|false)\.?$',
]
for pattern in patterns:
match = re.search(pattern, cleaned_output)
if match:
label = match.group(1).lower()
if label in valid_labels:
return label, True, None
if 'yes' in cleaned_output or 'humor' in cleaned_output:
if 'no' not in cleaned_output and 'not' not in cleaned_output:
return 'true', False, "inferred_from_yes_or_humor"
elif 'no' in cleaned_output or 'not humor' in cleaned_output:
return 'false', False, "inferred_from_no_or_not_humor"
if any(word in cleaned_output for word in ['true', 'false']):
return None, False, "label_found_but_not_extracted"
else:
return None, False, "no_label_pattern"
def evaluate_humor_understanding(result_file_path):
with open(result_file_path, 'r', encoding='utf-8') as f:
results = json.load(f)
predictions = []
ground_truths = []
detailed_results = []
extraction_errors = defaultdict(list)
prediction_errors = defaultdict(list)
humor_labels = ['false', 'true']
for item in results:
item_id = item['id']
model_output = item['model_output']
gt_label = item['ground_truth'].lower().strip()
pred_label, is_valid, error_type = extract_humor_label_from_output(model_output)
detailed_item = {
'id': item_id,
'model_output': model_output,
'extracted_prediction': pred_label,
'ground_truth': gt_label,
'correct': pred_label == gt_label if pred_label else False,
'valid': is_valid
}
detailed_results.append(detailed_item)
if not is_valid:
extraction_errors[error_type].append(item_id)
elif pred_label != gt_label:
error_pattern = f"{gt_label}_to_{pred_label}"
prediction_errors[error_pattern].append(item_id)
if pred_label:
predictions.append(pred_label)
ground_truths.append(gt_label)
if len(predictions) == 0:
return {
'error': 'No valid predictions found',
'total_samples': len(results),
'extraction_errors': dict(extraction_errors)
}
accuracy = accuracy_score(ground_truths, predictions)
weighted_f1 = f1_score(ground_truths, predictions, average='weighted')
macro_f1 = f1_score(ground_truths, predictions, average='macro')
cm = confusion_matrix(ground_truths, predictions, labels=humor_labels)
class_report = classification_report(ground_truths, predictions,
target_names=humor_labels,
output_dict=True,
zero_division=0)
true_positives = cm[1, 1]
false_positives = cm[0, 1]
false_negatives = cm[1, 0]
true_negatives = cm[0, 0]
humor_precision = true_positives / (true_positives + false_positives) if (true_positives + false_positives) > 0 else 0
humor_recall = true_positives / (true_positives + false_negatives) if (true_positives + false_negatives) > 0 else 0
humor_f1 = 2 * humor_precision * humor_recall / (humor_precision + humor_recall) if (humor_precision + humor_recall) > 0 else 0
evaluation_result = {
'task_info': {
'task_name': 'humor.understanding',
'dataset': 'UR-FUNNY',
'evaluation_time': datetime.now().isoformat(),
'total_samples': len(results),
'valid_predictions': len(predictions),
'extraction_success_rate': round(len(predictions) / len(results), 4)
},
'metrics': {
'ACC': round(accuracy, 4),
'WAF': round(weighted_f1, 4),
'Macro_F1': round(macro_f1, 4),
'Humor_Precision': round(humor_precision, 4),
'Humor_Recall': round(humor_recall, 4),
'Humor_F1': round(humor_f1, 4)
},
'per_class_metrics': {
label: {
'precision': round(class_report[label]['precision'], 4),
'recall': round(class_report[label]['recall'], 4),
'f1_score': round(class_report[label]['f1-score'], 4),
'support': int(class_report[label]['support'])
} for label in humor_labels if label in class_report
},
'confusion_matrix': {
'labels': humor_labels,
'matrix': cm.tolist(),
'detailed': {
'true_positives': int(true_positives),
'false_positives': int(false_positives),
'false_negatives': int(false_negatives),
'true_negatives': int(true_negatives)
}
},
'error_analysis': {
'extraction_errors': {
error_type: {
'count': len(sample_ids),
'sample_ids': sample_ids
} for error_type, sample_ids in extraction_errors.items()
},
'prediction_errors': {
error_pattern: {
'count': len(sample_ids),
'sample_ids': sample_ids
} for error_pattern, sample_ids in prediction_errors.items()
}
},
'distribution': {
'ground_truth': dict(Counter(ground_truths)),
'predictions': dict(Counter(predictions))
}
}
base_name = result_file_path.replace('.json', '')
eval_output_file = f"{base_name}_evaluation.json"
with open(eval_output_file, 'w', encoding='utf-8') as f:
json.dump(evaluation_result, f, ensure_ascii=False, indent=2)
detailed_output_file = f"{base_name}_detailed_results.json"
with open(detailed_output_file, 'w', encoding='utf-8') as f:
json.dump(detailed_results, f, ensure_ascii=False, indent=2)
problem_samples = [item for item in detailed_results if not item['correct']]
if problem_samples:
problem_report_file = f"{base_name}_problem_samples.json"
with open(problem_report_file, 'w', encoding='utf-8') as f:
json.dump(problem_samples, f, ensure_ascii=False, indent=2)
print(f"Evaluation complete: {len(results)} samples")
print(f"Key metrics: ACC={evaluation_result['metrics']['ACC']}, WAF={evaluation_result['metrics']['WAF']}")
print(f"Humor detection: Precision={evaluation_result['metrics']['Humor_Precision']}, Recall={evaluation_result['metrics']['Humor_Recall']}, F1={evaluation_result['metrics']['Humor_F1']}")
print(f"Extraction success rate: {evaluation_result['task_info']['extraction_success_rate']}")
print(f"Results saved to: {eval_output_file}")
if problem_samples:
print(f"Problematic samples: {len(problem_samples)}; see {problem_report_file} for details")
return evaluation_result
if __name__ == "__main__":
result_file = "model_result.json"
try:
evaluation_result = evaluate_humor_understanding(result_file)
except FileNotFoundError:
print(f"Error: file not found {result_file}")
except json.JSONDecodeError:
print(f"Error: invalid format for {result_file}")
except Exception as e:
print(f"Evaluation failed: {str(e)}")
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