import os import json from math_verify import parse, verify from typing import Dict, Any from collections import Counter import argparse def simple_verify(gold_answer: str, output_text: str) -> Dict[str, Any]: """ 使用math_verify进行简单验证 与原有infer.py保持一致 """ try: # gold_answer = "$" + gold_answer + "$" gold = parse(gold_answer) answer = parse(output_text) verify_result = verify(gold, answer) extracted_answer = str(answer) if answer is not None else None except Exception as e: verify_result = False extracted_answer = None print(f"解析失败: {e}") return { 'extracted_predicted': extracted_answer, 'is_correct': verify_result } def majority_verify(input_path, output_path,all_samples=False,clip_sample_num=4): total_len = 0 majority_correct_len = 0 correct_count_dict = {} correct_indices = [] with open(input_path, 'r', encoding='utf-8') as f: for idx, line in enumerate(f): data = json.loads(line) solution = data['solution'] if all_samples: outputs_list = data['outputs'] else: if len(data['outputs']) < clip_sample_num: outputs_list = data['outputs'] else: outputs_list = data['outputs'][:clip_sample_num] answer_counts = {} answer_verify_counts = {} verify_infos = [] for output in outputs_list: verify_info = simple_verify(solution, output) extracted_answer = verify_info['extracted_predicted'] normalized_answer = str(extracted_answer).strip() if extracted_answer is not None else None verify_infos.append((normalized_answer, verify_info['is_correct'])) if normalized_answer is None: continue answer_counts[normalized_answer] = answer_counts.get(normalized_answer, 0) + 1 if normalized_answer not in answer_verify_counts: answer_verify_counts[normalized_answer] = {'correct': 0, 'total': 0} answer_verify_counts[normalized_answer]['total'] += 1 if verify_info['is_correct']: answer_verify_counts[normalized_answer]['correct'] += 1 if not answer_counts: correct_count_dict[idx] = 0 total_len += 1 continue # 打印每个问题的答案出现次数 print(f"问题{idx} 答案出现次数:") for ans, cnt in answer_counts.items(): print(f"({ans}):{cnt}次") # 找到出现次数最多的答案 final_answer = max(answer_counts.items(), key=lambda x: x[1])[0] verify_info_majority = answer_verify_counts.get(final_answer, {'correct': 0, 'total': 0}) verify_result = verify_info_majority['correct'] > 0 if verify_result: majority_correct_len += 1 correct_indices.append(idx) # 统计所有 sample 里正确的个数 correct_count = sum(1 for _, is_correct in verify_infos if is_correct) correct_count_dict[idx] = correct_count total_len += 1 acc = majority_correct_len / total_len if total_len > 0 else 0.0 print(f"total_len: {total_len}, majority_correct_len: {majority_correct_len}") print(f"majority accuracy: {acc}") result = { 'acc': acc, 'correct_count_dict': correct_count_dict, 'correct_indices': correct_indices } with open(output_path, 'w', encoding='utf-8') as fout: json.dump(result, fout, ensure_ascii=False, indent=2) dist = Counter(correct_count_dict.values()) print("每个问题 sample 正确数量的分布:") for k in sorted(dist.keys(), reverse=True): print(f"{k} 个 sample 全对的问题数: {dist[k]}") # input_path = "/home/tianqiu/tts_schedule/batch_infer/results/mathhard/Qwen_Qwen2.5-7B-Instruct/Sequence_new_prompt/batch_data/batch_1/parallel_merged_output.jsonl" # output_path = "/home/tianqiu/tts_schedule/batch_infer/results/mathhard/Qwen_Qwen2.5-7B-Instruct/Sequence_new_prompt/batch_data/batch_1/acc.jsonl" # majority_verify(input_path, output_path) if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument("--input_path", type=str, required=True) parser.add_argument("--output_path", type=str, required=True) parser.add_argument("--all_samples", action="store_true") parser.add_argument("--clip_sample_num", type=int, required=True) args = parser.parse_args() input_path = args.input_path output_path = args.output_path all_samples = args.all_samples clip_sample_num = args.clip_sample_num majority_verify(input_path, output_path, False, clip_sample_num)