"""Overview: This code implements the evaluation of agents on the GPQA Benchmark with Open Book setting. - The benchmark consists of 448 high-quality and extremely difficult multiple-choice questions in the domains of biology, physics, and chemistry. The questions are intentionally designed to be "Google-proof," meaning that even highly skilled non-expert validators achieve only 34% accuracy despite unrestricted access to the web. - Even experts in the corresponding domains achieve only 65% accuracy. - State-of-the-art AI systems achieve only 39% accuracy on this challenging dataset. Accurate solving of above graduate level questions would require both tool use (e.g., python for calculations) and web-search for finding related facts as information required for the questions might not be part of the LLM knowledge / training data. Further references: - https://arxiv.org/pdf/2311.12022 - https://paperswithcode.com/dataset/gpqa - https://github.com/idavidrein/gpqa TODOs: - Add evaluation on other Agent classes - Batch inference and evaluation of agents on the GPQA Benchmark. """ import asyncio import os import random import re from typing import Callable import pandas as pd from datasets import load_dataset from evaluation.utils.shared import ( EvalMetadata, EvalOutput, compatibility_for_eval_history_pairs, make_metadata, prepare_dataset, reset_logger_for_multiprocessing, run_evaluation, ) from openhands.controller.state.state import State from openhands.core.config import ( AppConfig, SandboxConfig, get_llm_config_arg, get_parser, ) from openhands.core.logger import openhands_logger as logger from openhands.core.main import create_runtime, run_controller from openhands.events.action import ( Action, AgentFinishAction, MessageAction, ) from openhands.events.observation import Observation from openhands.utils.async_utils import call_async_from_sync ACTION_FORMAT = """ < (Please dont use any additional characters. Just the letter of the correct answer (A/B/C/D).) ||FINAL_ANSWER>> """.strip() def get_config( metadata: EvalMetadata, ) -> AppConfig: config = AppConfig( default_agent=metadata.agent_class, run_as_openhands=False, runtime='docker', max_iterations=metadata.max_iterations, sandbox=SandboxConfig( base_container_image='python:3.12-bookworm', enable_auto_lint=True, use_host_network=False, ), # do not mount workspace workspace_base=None, workspace_mount_path=None, ) config.set_llm_config(metadata.llm_config) agent_config = config.get_agent_config(metadata.agent_class) agent_config.enable_prompt_extensions = False return config def gpqa_codeact_user_response( state: State, encapsulate_solution: bool = False, try_parse: Callable[[Action], str] | None = None, ) -> str: msg = ( 'Please continue working on the task on whatever approach you think is suitable.\n' 'Feel free to use all tools for calculations and solving the problem, and web-search for finding relevant facts during the process if needed\n' 'If you have finished reporting the answer in the expected format, (and only once that is done), please use the "finish" tool to finish the interaction.\n' 'Again you are being told a million times to first report the answer in the requested format (see again below for reference) before exiting. DO NOT EXIT WITHOUT REPORTING THE ANSWER FIRST.\n' 'That is, when you have decided on the answer report in the following format:\n' f'{ACTION_FORMAT}\n' 'IMPORTANT: YOU SHOULD NEVER ASK FOR HUMAN HELP TO SOLVE THIS TASK.\n' ) return msg AGENT_CLS_TO_FAKE_USER_RESPONSE_FN = {'CodeActAgent': gpqa_codeact_user_response} AGENT_CLS_TO_INST_SUFFIX = { 'CodeActAgent': '\n\n SUPER IMPORTANT: When you think you have solved the question, first report it back to the user in the requested format. Only once that is done, in the next turn, please finish the interaction using the "finish" tool.\n' } def parse_final_answer(final_answer: str | None) -> str | None: """Parse the final answer from the final message generated by the agent to extract the final answer. The final answer is usually enclosed in the format: < ||FINAL_ANSWER>> """ # to do this first extract the part enclosed in the format <> pattern = re.compile(r'<>', re.DOTALL) match = pattern.search(final_answer) # and then strip it, remove any leading/trailing spaces line breaks etc. answer = match.group(1).strip() # finally capitalize it answer = answer.upper() # and then return A, B, C, D depending on whether the answer A, B, C, D is found in the final answer for letter in ['A', 'B', 'C', 'D']: if letter in answer: return letter def compare_answers(model_output: str | None, ground_truth: str): """Compare the predicted answer with the ground truth answer""" try: # parse the final answer from model output predicted_answer = parse_final_answer(model_output) except Exception as e: # Log the exception logger.error(f'An error occurred: {e}\n defaulting to random guess ...') # choose a random answer if the model output is not in the correct format predicted_answer = random.choice(['A', 'B', 'C', 'D']) logger.info('#############################################') logger.info(f'Predicted answer: {predicted_answer}') logger.info(f'Ground truth answer: {ground_truth}') logger.info('#############################################') return predicted_answer == ground_truth def convert_instance_dict(instance): """Used for preprocessing the hf dataset into a format that can be used by the agent. Reads and extracts relevant information from the dataset instance. """ out_instance_dict = {} out_instance_dict['question'] = instance['Question'] correct_answer = instance['Correct Answer'] out_instance_dict['choices'] = [ correct_answer, instance['Incorrect Answer 1'], instance['Incorrect Answer 2'], instance['Incorrect Answer 3'], ] # Randomize the order of choices random.shuffle(out_instance_dict['choices']) # Find the index of the correct answer after shuffling and store it as a letter (A/B/C/D) correct_index = out_instance_dict['choices'].index(correct_answer) correct_letter = chr( 65 + correct_index ) # Convert index (0-3) to corresponding letter (A-D) out_instance_dict['correct_solution'] = correct_letter return out_instance_dict def process_instance( instance: pd.Series, metadata: EvalMetadata, reset_logger: bool = True, ): config = get_config(metadata) # Setup the logger properly, so you can run multi-processing to parallelize the evaluation if reset_logger: log_dir = os.path.join(metadata.eval_output_dir, 'infer_logs') reset_logger_for_multiprocessing(logger, instance['instance_id'], log_dir) else: logger.info(f'Starting evaluation for instance {instance["instance_id"]}.') # ======= Run the agent on the instance ======= # Prepare instruction for the agent using suggested format in gpqa codebase instruction = f""" What is the correct answer to this question:\n {instance['question']}\n Choices:\n (A) {instance['choices'][0]}\n (B) {instance['choices'][1]}\n (C) {instance['choices'][2]}\n (D) {instance['choices'][3]}\n \n\n MOST IMPORTANT: Format your response as follows: {ACTION_FORMAT} Additional Instructions: - Do not try to solve the question in a single step. Break it down into smaller steps. - You should ONLY interact with the environment provided to you AND NEVER ASK FOR HUMAN HELP. - SUPER IMPORTANT: When you have reported the answer to the user in the requested format, (and only once that is done) in the next turn, please finish the interaction using the "finish" tool. - Again you are being told a million times to first report the answer in the requested format (see again below for reference) before exiting. DO NOT EXIT WITHOUT REPORTING THE ANSWER FIRST. That is, when you have decided on the answer report in the following format: {ACTION_FORMAT} Again do not quit without reporting the answer first. Ok now its time to start solving the question. Good luck! """ runtime = create_runtime(config) call_async_from_sync(runtime.connect) state: State | None = asyncio.run( run_controller( config=config, initial_user_action=MessageAction(content=instruction), runtime=runtime, fake_user_response_fn=AGENT_CLS_TO_FAKE_USER_RESPONSE_FN.get( metadata.agent_class ), ) ) assert state is not None, 'State should not be None.' # ======= Attempt to evaluate the agent's edits ======= question_choices = { 'A': instance['choices'][0], 'B': instance['choices'][1], 'C': instance['choices'][2], 'D': instance['choices'][3], } # get the final message from the state history (default to empty if not found) found_answers = { 'A': False, 'B': False, 'C': False, 'D': False, } for event in reversed(state.history): if ( isinstance(event, AgentFinishAction) and event.source != 'user' and '< 0: _selected = random.choice(found_options) # if the final message is None, then the agent did not report the answer in the correct format # so we randomly select one of the found options and compare it with the correct solution test_result = _selected == instance.correct_solution logger.info('#############################################') logger.info('Agent did not report the answer in the correct format.') logger.info(f'Found options: {found_options}') logger.info(f'Selected option: {_selected}') logger.info('#############################################') logger.info('#############################################') logger.info(f'Test result: {test_result}') logger.info('#############################################') # If you are working on some simpler benchmark that only evaluates the final model output (e.g., in a MessageAction) # You can simply get the LAST `MessageAction` from the returned `state.history` and parse it for evaluation. if state is None: raise ValueError('State should not be None.') metrics = state.metrics.get() if state.metrics else None # Save the output output = EvalOutput( instance_id=str(instance.instance_id), instruction=instruction, metadata=metadata, history=compatibility_for_eval_history_pairs(state.history), metrics=metrics, error=state.last_error if state and state.last_error else None, test_result={ 'result': test_result, 'found_answers': found_answers, 'last_message': final_message, }, ) return output if __name__ == '__main__': parser = get_parser() # data split must be one of 'gpqa_main', 'gqpa_diamond', 'gpqa_experts', 'gpqa_extended' parser.add_argument( '--data-split', type=str, choices=['gpqa_main', 'gpqa_diamond', 'gpqa_experts', 'gpqa_extended'], default='gpqa_diamond', help='data split to evaluate, eg. gpqa_diamond', ) args, _ = parser.parse_known_args() llm_config = None if args.llm_config: llm_config = get_llm_config_arg(args.llm_config) # modify_params must be False for evaluation purpose, for reproducibility and accurancy of results llm_config.modify_params = False if llm_config is None: raise ValueError(f'Could not find LLM config: --llm_config {args.llm_config}') # NOTE: It is preferable to load datasets from huggingface datasets and perform post-processing # so we don't need to manage file uploading to OpenHands's repo dataset = load_dataset('Idavidrein/gpqa', args.data_split) gpqa_dataset = dataset['train'] # preprocess the dataset gpqa_dataset = gpqa_dataset.map(convert_instance_dict) gpqa_dataset = gpqa_dataset.to_pandas() # Add a new column 'instance_id' with the index gpqa_dataset['instance_id'] = gpqa_dataset.index if args.agent_cls != 'CodeActAgent': raise ValueError( f'Agent class {args.agent_cls} not supported for GPQA evaluation.' ) metadata = make_metadata( llm_config=llm_config, dataset_name=args.data_split, agent_class=args.agent_cls, max_iterations=args.max_iterations, eval_note=args.eval_note, eval_output_dir=args.eval_output_dir, data_split=args.data_split, ) output_file = os.path.join(metadata.eval_output_dir, 'output.jsonl') prepared_dataset = prepare_dataset(gpqa_dataset, output_file, args.eval_n_limit) run_evaluation( dataset=prepared_dataset, metadata=metadata, output_file=output_file, num_workers=args.eval_num_workers, process_instance_func=process_instance, )