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"""
Comprehensive Evaluation System for Summarization Models
Implements ROUGE metrics, comparison analysis, and statistical testing
"""
# Handle different rouge library installations
try:
from rouge import Rouge
ROUGE_AVAILABLE = True
ROUGE_TYPE = "rouge"
except ImportError:
try:
from rouge_score import rouge_scorer
ROUGE_AVAILABLE = True
ROUGE_TYPE = "rouge_score"
except ImportError:
ROUGE_AVAILABLE = False
ROUGE_TYPE = None
print("Warning: No ROUGE library found. Install with: pip install rouge-score")
import numpy as np
from typing import Dict, List, Tuple, Optional
import pandas as pd
import logging
from scipy import stats
import time
logger = logging.getLogger(__name__)
class SummarizerEvaluator:
"""
Professional evaluation system for summarization models.
Metrics Implemented:
- ROUGE-1: Unigram overlap
- ROUGE-2: Bigram overlap
- ROUGE-L: Longest common subsequence
- ROUGE-W: Weighted longest common subsequence
Additional Analysis:
- Compression ratio
- Processing time
- Statistical significance testing
- Model comparison
"""
def __init__(self):
"""Initialize evaluator with ROUGE scorer"""
if ROUGE_AVAILABLE:
if ROUGE_TYPE == "rouge":
self.rouge = Rouge()
self.rouge_scorer = None
else: # rouge_score
self.rouge = None
self.rouge_scorer = rouge_scorer.RougeScorer(['rouge1', 'rouge2', 'rougeL'], use_stemmer=True)
logger.info(f"Evaluator initialized with {ROUGE_TYPE} library")
else:
self.rouge = None
self.rouge_scorer = None
logger.warning("ROUGE library not available - only basic metrics will be computed")
self.evaluation_history = []
def _calculate_rouge_scores(self, generated: str, reference: str) -> Dict:
"""Calculate ROUGE scores using available library"""
if not ROUGE_AVAILABLE:
return {
'rouge-1': {'f': 0.0, 'p': 0.0, 'r': 0.0},
'rouge-2': {'f': 0.0, 'p': 0.0, 'r': 0.0},
'rouge-l': {'f': 0.0, 'p': 0.0, 'r': 0.0}
}
if ROUGE_TYPE == "rouge":
# Original rouge library
scores = self.rouge.get_scores(generated, reference)[0]
return scores
else:
# rouge_score library
scores = self.rouge_scorer.score(reference, generated)
return {
'rouge-1': {
'f': scores['rouge1'].fmeasure,
'p': scores['rouge1'].precision,
'r': scores['rouge1'].recall
},
'rouge-2': {
'f': scores['rouge2'].fmeasure,
'p': scores['rouge2'].precision,
'r': scores['rouge2'].recall
},
'rouge-l': {
'f': scores['rougeL'].fmeasure,
'p': scores['rougeL'].precision,
'r': scores['rougeL'].recall
}
}
def evaluate_single(self,
generated: str,
reference: str,
model_name: str = "Unknown") -> Dict:
"""
Evaluate a single summary against reference
ROUGE Metrics Explained:
- Precision: What % of generated words are in reference
- Recall: What % of reference words are in generated
- F1-Score: Harmonic mean of precision and recall
Args:
generated: Generated summary
reference: Human reference summary
model_name: Name of the model
Returns:
Dictionary containing all metrics
"""
if not generated or not reference:
logger.warning("Empty summary or reference provided")
return self._empty_scores()
try:
# Calculate ROUGE scores
scores = self._calculate_rouge_scores(generated, reference)
# Calculate additional metrics
compression_ratio = len(generated.split()) / len(reference.split()) if len(reference.split()) > 0 else 0
result = {
'model_name': model_name,
'rouge_1_f1': scores['rouge-1']['f'],
'rouge_1_precision': scores['rouge-1']['p'],
'rouge_1_recall': scores['rouge-1']['r'],
'rouge_2_f1': scores['rouge-2']['f'],
'rouge_2_precision': scores['rouge-2']['p'],
'rouge_2_recall': scores['rouge-2']['r'],
'rouge_l_f1': scores['rouge-l']['f'],
'rouge_l_precision': scores['rouge-l']['p'],
'rouge_l_recall': scores['rouge-l']['r'],
'compression_ratio': compression_ratio,
'generated_length': len(generated.split()),
'reference_length': len(reference.split())
}
return result
except Exception as e:
logger.error(f"Error evaluating summary: {e}")
return self._empty_scores()
def _empty_scores(self) -> Dict:
"""Return empty scores for error cases"""
return {
'rouge_1_f1': 0.0,
'rouge_1_precision': 0.0,
'rouge_1_recall': 0.0,
'rouge_2_f1': 0.0,
'rouge_2_precision': 0.0,
'rouge_2_recall': 0.0,
'rouge_l_f1': 0.0,
'rouge_l_precision': 0.0,
'rouge_l_recall': 0.0,
'compression_ratio': 0.0,
'generated_length': 0,
'reference_length': 0
}
def evaluate_batch(self,
generated_summaries: List[str],
reference_summaries: List[str],
model_name: str = "Unknown") -> Dict:
"""
Evaluate multiple summaries and aggregate results
Args:
generated_summaries: List of generated summaries
reference_summaries: List of reference summaries
model_name: Name of the model
Returns:
Dictionary with aggregated statistics
"""
assert len(generated_summaries) == len(reference_summaries), \
"Generated and reference lists must have same length"
logger.info(f"Evaluating {len(generated_summaries)} summaries for {model_name}")
results = []
for gen, ref in zip(generated_summaries, reference_summaries):
scores = self.evaluate_single(gen, ref, model_name)
results.append(scores)
# Aggregate statistics
df = pd.DataFrame(results)
aggregated = {
'model_name': model_name,
'num_samples': len(results),
'rouge_1_f1_mean': df['rouge_1_f1'].mean(),
'rouge_1_f1_std': df['rouge_1_f1'].std(),
'rouge_2_f1_mean': df['rouge_2_f1'].mean(),
'rouge_2_f1_std': df['rouge_2_f1'].std(),
'rouge_l_f1_mean': df['rouge_l_f1'].mean(),
'rouge_l_f1_std': df['rouge_l_f1'].std(),
'compression_ratio_mean': df['compression_ratio'].mean(),
'compression_ratio_std': df['compression_ratio'].std(),
'individual_scores': results
}
# Store in history
self.evaluation_history.append(aggregated)
return aggregated
def compare_models(self,
models_dict: Dict,
test_texts: List[str],
reference_summaries: List[str],
**summarize_kwargs) -> pd.DataFrame:
"""
Compare multiple models on the same dataset
Args:
models_dict: Dictionary {model_name: model_instance}
test_texts: List of texts to summarize
reference_summaries: List of reference summaries
**summarize_kwargs: Additional parameters for summarization
Returns:
DataFrame with comparison results
"""
logger.info(f"Comparing {len(models_dict)} models on {len(test_texts)} texts")
comparison_results = []
for model_name, model in models_dict.items():
logger.info(f"Evaluating {model_name}...")
start_time = time.time()
# Generate summaries
generated_summaries = []
for text in test_texts:
try:
summary = model.summarize(text, **summarize_kwargs)
generated_summaries.append(summary)
except Exception as e:
logger.error(f"Error with {model_name}: {e}")
generated_summaries.append("")
total_time = time.time() - start_time
# Evaluate
eval_results = self.evaluate_batch(
generated_summaries,
reference_summaries,
model_name
)
# Add timing information
eval_results['total_time'] = total_time
eval_results['avg_time_per_summary'] = total_time / len(test_texts)
comparison_results.append(eval_results)
# Create comparison DataFrame
df = pd.DataFrame([
{
'Model': r['model_name'],
'ROUGE-1': f"{r['rouge_1_f1_mean']:.4f} ± {r['rouge_1_f1_std']:.4f}",
'ROUGE-2': f"{r['rouge_2_f1_mean']:.4f} ± {r['rouge_2_f1_std']:.4f}",
'ROUGE-L': f"{r['rouge_l_f1_mean']:.4f} ± {r['rouge_l_f1_std']:.4f}",
'Compression': f"{r['compression_ratio_mean']:.2f}x",
'Avg Time (s)': f"{r['avg_time_per_summary']:.3f}"
}
for r in comparison_results
])
logger.info("Model comparison completed")
return df
def statistical_significance_test(self,
model1_scores: List[float],
model2_scores: List[float],
test_name: str = "paired t-test") -> Dict:
"""
Test if difference between models is statistically significant
Args:
model1_scores: Scores from first model
model2_scores: Scores from second model
test_name: Type of statistical test
Returns:
Dictionary with test results
"""
if test_name == "paired t-test":
statistic, p_value = stats.ttest_rel(model1_scores, model2_scores)
elif test_name == "wilcoxon":
statistic, p_value = stats.wilcoxon(model1_scores, model2_scores)
else:
raise ValueError(f"Unknown test: {test_name}")
is_significant = p_value < 0.05
return {
'test_name': test_name,
'statistic': statistic,
'p_value': p_value,
'is_significant': is_significant,
'significance_level': 0.05,
'interpretation': (
f"The difference is {'statistically significant' if is_significant else 'not statistically significant'} "
f"(p={p_value:.4f})"
)
}
def get_detailed_report(self,
evaluation_result: Dict) -> str:
"""
Generate a detailed text report
Args:
evaluation_result: Results from evaluate_batch
Returns:
Formatted report string
"""
report = []
report.append("=" * 70)
report.append(f"EVALUATION REPORT: {evaluation_result['model_name']}")
report.append("=" * 70)
report.append(f"\nDataset Size: {evaluation_result['num_samples']} samples\n")
report.append("ROUGE Scores (F1):")
report.append(f" ROUGE-1: {evaluation_result['rouge_1_f1_mean']:.4f} (±{evaluation_result['rouge_1_f1_std']:.4f})")
report.append(f" ROUGE-2: {evaluation_result['rouge_2_f1_mean']:.4f} (±{evaluation_result['rouge_2_f1_std']:.4f})")
report.append(f" ROUGE-L: {evaluation_result['rouge_l_f1_mean']:.4f} (±{evaluation_result['rouge_l_f1_std']:.4f})")
report.append(f"\nCompression Ratio: {evaluation_result['compression_ratio_mean']:.2f}x")
report.append(f" (Standard Deviation: {evaluation_result['compression_ratio_std']:.2f})")
report.append("\n" + "=" * 70)
return "\n".join(report)
def export_results(self,
evaluation_result: Dict,
filename: str = "evaluation_results.json"):
"""
Export evaluation results to file
Args:
evaluation_result: Results to export
filename: Output filename
"""
import json
with open(filename, 'w') as f:
json.dump(evaluation_result, f, indent=2)
logger.info(f"Results exported to {filename}")
# Test the evaluator
if __name__ == "__main__":
print("=" * 70)
print("EVALUATOR SYSTEM TEST")
print("=" * 70)
# Sample data
generated = "Machine learning revolutionizes AI. Neural networks perform complex tasks."
reference = "Machine learning has transformed artificial intelligence. Deep neural networks can now handle complicated tasks with high accuracy."
# Initialize evaluator
evaluator = SummarizerEvaluator()
# Evaluate single summary
scores = evaluator.evaluate_single(generated, reference, "TestModel")
print("\nSingle Summary Evaluation:")
print(f"ROUGE-1 F1: {scores['rouge_1_f1']:.4f}")
print(f"ROUGE-2 F1: {scores['rouge_2_f1']:.4f}")
print(f"ROUGE-L F1: {scores['rouge_l_f1']:.4f}")
print(f"Compression Ratio: {scores['compression_ratio']:.2f}x")
# Test batch evaluation
generated_list = [generated] * 5
reference_list = [reference] * 5
batch_scores = evaluator.evaluate_batch(generated_list, reference_list, "TestModel")
print("\n" + evaluator.get_detailed_report(batch_scores)) |