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mmlu_eval.py
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mmlu_eval.py
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"""
Measuring Massive Multitask Language Understanding
Dan Hendrycks, Collin Burns, Steven Basart, Andy Zou, Mantas Mazeika, Dawn Song, Jacob Steinhardt
https://arxiv.org/abs/2009.03300
"""
import random
import re
import blobfile as bf
import pandas
from . import common
from .common import (
HTML_JINJA,
MULTILINGUAL_ANSWER_PATTERN_TEMPLATE,
MULTILINGUAL_ANSWER_REGEXES,
format_multichoice_question,
normalize_extracted_answer,
normalize_response,
)
from .types import Eval, EvalResult, SamplerBase, SingleEvalResult
subject2category = {
"abstract_algebra": "stem",
"anatomy": "other",
"astronomy": "stem",
"business_ethics": "other",
"clinical_knowledge": "other",
"college_biology": "stem",
"college_chemistry": "stem",
"college_computer_science": "stem",
"college_mathematics": "stem",
"college_medicine": "other",
"college_physics": "stem",
"computer_security": "stem",
"conceptual_physics": "stem",
"econometrics": "social_sciences",
"electrical_engineering": "stem",
"elementary_mathematics": "stem",
"formal_logic": "humanities",
"global_facts": "other",
"high_school_biology": "stem",
"high_school_chemistry": "stem",
"high_school_computer_science": "stem",
"high_school_european_history": "humanities",
"high_school_geography": "social_sciences",
"high_school_government_and_politics": "social_sciences",
"high_school_macroeconomics": "social_sciences",
"high_school_mathematics": "stem",
"high_school_microeconomics": "social_sciences",
"high_school_physics": "stem",
"high_school_psychology": "social_sciences",
"high_school_statistics": "stem",
"high_school_us_history": "humanities",
"high_school_world_history": "humanities",
"human_aging": "other",
"human_sexuality": "social_sciences",
"international_law": "humanities",
"jurisprudence": "humanities",
"logical_fallacies": "humanities",
"machine_learning": "stem",
"management": "other",
"marketing": "other",
"medical_genetics": "other",
"miscellaneous": "other",
"moral_disputes": "humanities",
"moral_scenarios": "humanities",
"nutrition": "other",
"philosophy": "humanities",
"prehistory": "humanities",
"professional_accounting": "other",
"professional_law": "humanities",
"professional_medicine": "other",
"professional_psychology": "social_sciences",
"public_relations": "social_sciences",
"security_studies": "social_sciences",
"sociology": "social_sciences",
"us_foreign_policy": "social_sciences",
"virology": "other",
"world_religions": "humanities",
}
class MMLUEval(Eval):
def __init__(self, num_examples: int | None = None, language: str = "EN-US"):
if language != "EN-US":
url = f"https://openaipublic.blob.core.windows.net/simple-evals/mmlu_{language}.csv"
else:
url = "https://openaipublic.blob.core.windows.net/simple-evals/mmlu.csv"
df = pandas.read_csv(bf.BlobFile(url))
examples = [row.to_dict() for _, row in df.iterrows()]
if num_examples:
examples = random.Random(0).sample(examples, num_examples)
self.examples = examples
def __call__(self, sampler: SamplerBase) -> EvalResult:
def fn(row: dict):
prompt_messages = [
sampler._pack_message(
content=format_multichoice_question(row), role="user"
)
]
response_text = normalize_response(sampler(prompt_messages))
extracted_answer = None
for answer_regex in MULTILINGUAL_ANSWER_REGEXES:
regex = MULTILINGUAL_ANSWER_PATTERN_TEMPLATE.format(answer_regex)
match = re.search(regex, response_text)
if match:
extracted_answer = normalize_extracted_answer(match.group(1))
break
score = 1.0 if extracted_answer == row["Answer"] else 0.0
html = common.jinja_env.from_string(HTML_JINJA).render(
prompt_messages=prompt_messages,
next_message=dict(content=response_text, role="assistant"),
score=score,
correct_answer=row["Answer"],
extracted_answer=extracted_answer,
)
convo = prompt_messages + [dict(content=response_text, role="assistant")]
category = subject2category.get(row["Subject"], "other")
return SingleEvalResult(
html=html, score=score, metrics={category: score}, convo=convo
)
results = common.map_with_progress(fn, self.examples)
return common.aggregate_results(results)