Isekai-Qwen/eval/evaluate_cmmlu.py

import os
import pandas as pd
import numpy as np
import argparse
import datasets
import torch
from collections import defaultdict

from typing import List
from tqdm import tqdm
from transformers.trainer_utils import set_seed


"""
wget https://huggingface.co/datasets/haonan-li/cmmlu/resolve/main/cmmlu_v1_0_1.zip
mkdir data/cmmlu
mv cmmlu_v1_0_1.zip data/cmmlu
cd data/cmmlu; unzip cmmlu_v1_0_1.zip
cd ../../
python evaluate_cmmlu.py -d data/cmmlu/
"""


def load_models_tokenizer(args):
    from transformers import AutoModelForCausalLM, AutoTokenizer
    from transformers.generation import GenerationConfig

    tokenizer = AutoTokenizer.from_pretrained(
        args.checkpoint_path,
        pad_token='<|extra_0|>',
        eos_token='<|endoftext|>',
        padding_side='left',
        trust_remote_code=True
    )
    model = AutoModelForCausalLM.from_pretrained(
        args.checkpoint_path,
        pad_token_id=tokenizer.pad_token_id,
        device_map="auto",
        trust_remote_code=True
    ).eval()
    model.generation_config = GenerationConfig.from_pretrained(
        args.checkpoint_path,
        pad_token_id=tokenizer.pad_token_id,
        trust_remote_code=True
    )
    return model, tokenizer


def format_example(line, include_answer=True):
    example = "问题：" + line["Question"]
    for choice in choices:
        example += f'\n{choice}. {line[f"{choice}"]}'

    if include_answer:
        example += "\n答案：" + line["Answer"] + "\n\n"
    else:
        example += "\n答案："
    return example


def generate_few_shot_prompt(k, subject, dev_df):
    prompt = ""
    if k == -1:
        k = dev_df.shape[0]
    for i in range(k):
        prompt += format_example(
            dev_df.iloc[i, :],
            include_answer=True,
        )
    return prompt


def get_logits(tokenizer, model, inputs: List[str]):
    input_ids = tokenizer(inputs, padding='longest')["input_ids"]
    input_ids = torch.tensor(input_ids, device=model.device)
    tokens = {"input_ids": input_ids}
    attention_mask = input_ids.ne(tokenizer.pad_token_id)

    outputs = model(input_ids, attention_mask=attention_mask)["logits"]
    logits = outputs[:, -1, :]
    log_probs = torch.nn.functional.softmax(logits, dim=-1)
    return log_probs, {"tokens": tokens}


@torch.no_grad()
def eval_subject(
    model,
    tokenizer,
    subject_name,
    test_df,
    k=5,
    dev_df=None,
    few_shot=False,
    save_result_dir=None,
    batch_size=1,
    **kwargs,
):
    result = []
    score = []

    few_shot_prompt = (
        generate_few_shot_prompt(k, subject_name, dev_df) if few_shot else []
    )
    all_probs = {"prob_A": [], "prob_B": [], "prob_C": [], "prob_D": []}
    if args.debug:
        print(f"few_shot_prompt: {few_shot_prompt}")

    choices_ids = torch.tensor(
        tokenizer("A")["input_ids"] + tokenizer("B")["input_ids"] +
        tokenizer("C")["input_ids"] + tokenizer("D")["input_ids"]
    ).unsqueeze(0).to(model.device)

    idx_list = list(range(0, len(test_df), batch_size))
    for i in tqdm(idx_list):
        full_prompt_list = []
        answer_list = []
        for row in test_df.iloc[i:i+batch_size].to_dict(orient='records'):
            question = format_example(row, include_answer=False)
            full_prompt = few_shot_prompt + question
            full_prompt_list.append(full_prompt)
            if 'Answer' in row:
                answer_list.append(row['Answer'])

        logits, input_info = get_logits(tokenizer, model, full_prompt_list)
        softval = logits.gather(1, choices_ids.expand(logits.size(0), -1)).softmax(1)
        if softval.dtype in {torch.bfloat16, torch.float16}:
            softval = softval.to(dtype=torch.float32)
        probs = softval.detach().cpu().numpy()

        for i in range(len(probs)):
            for j, choice in enumerate(choices):
                all_probs[f"prob_{choice}"].append(probs[i][j])
            pred = {0: "A", 1: "B", 2: "C", 3: "D"}[np.argmax(probs[i])]

            if answer_list != []:
                correct = 1 if pred == answer_list[i] else 0
                score.append(correct)
                if args.debug:
                    print(f'{question} pred: {pred} ref: {answer_list[i]}')
            result.append(pred)

    if score:
        correct_ratio = 100 * sum(score) / len(score)
        if args.debug:
            print(subject_name, correct_ratio)
    else:
        correct_ratio = 0
    if save_result_dir:
        test_df["model_output"] = result
        for i, choice in enumerate(choices):
            test_df[f"prob_{choice}"] = all_probs[f"prob_{choice}"]
        if score:
            test_df["correctness"] = score
        os.makedirs(save_result_dir, exist_ok=True)
        test_df.to_csv(
            os.path.join(save_result_dir, f"{subject_name}_result.csv"),
            encoding="utf-8",
            index=False,
        )

    return correct_ratio


def cal_cmmlu(res):
    print("\n\n\n")
    res = {k.split("-")[-1]: float(v) for k, v in res.items()}
    for k, v in TASK_NAME_MAPPING.items():
        avg_acc = np.mean(list(map(lambda x: res[x], v)))
        print(f"{k} acc: {avg_acc:.2f}")
    avg_all_acc = np.mean(list(res.values()))
    print(f"AVERAGE acc: {avg_all_acc:.2f}")


subcategories = {
    "agronomy": ["other"],
    "anatomy": ["biology"],
    "ancient_chinese": ["linguistics", "china specific"],
    "arts": ["arts"],
    "astronomy": ["physics"],
    "business_ethics": ["business"],
    "chinese_civil_service_exam": ["politics", "china specific"],
    "chinese_driving_rule": ["other", "china specific"],
    "chinese_food_culture": ["culture", "china specific"],
    "chinese_foreign_policy": ["politics", "china specific"],
    "chinese_history": ["history", "china specific"],
    "chinese_literature": ["literature", "china specific"],
    "chinese_teacher_qualification": ["education", "china specific"],
    "college_actuarial_science": ["math"],
    "college_education": ["education"],
    "college_engineering_hydrology": ["engineering"],
    "college_law": ["law"],
    "college_mathematics": ["math"],
    "college_medical_statistics": ["statistics"],
    "clinical_knowledge": ["other"],
    "college_medicine": ["other"],
    "computer_science": ["computer science"],
    "computer_security": ["other"],
    "conceptual_physics": ["physics"],
    "construction_project_management": ["other", "china specific"],
    "economics": ["economics"],
    "education": ["education"],
    "elementary_chinese": ["linguistics", "china specific"],
    "elementary_commonsense": ["other", "china specific"],
    "elementary_information_and_technology": ["other"],
    "electrical_engineering": ["engineering"],
    "elementary_mathematics": ["math"],
    "ethnology": ["culture", "china specific"],
    "food_science": ["other"],
    "genetics": ["biology"],
    "global_facts": ["global"],
    "high_school_biology": ["biology"],
    "high_school_chemistry": ["chemistry"],
    "high_school_geography": ["geography"],
    "high_school_mathematics": ["math"],
    "high_school_physics": ["physics"],
    "high_school_politics": ["politics", "china specific"],
    "human_sexuality": ["other"],
    "international_law": ["law"],
    "journalism": ["sociology"],
    "jurisprudence": ["law"],
    "legal_and_moral_basis": ["other"],
    "logical": ["philosophy"],
    "machine_learning": ["computer science"],
    "management": ["business"],
    "marketing": ["business"],
    "marxist_theory": ["philosophy"],
    "modern_chinese": ["linguistics", "china specific"],
    "nutrition": ["other"],
    "philosophy": ["philosophy"],
    "professional_accounting": ["business"],
    "professional_law": ["law"],
    "professional_medicine": ["other"],
    "professional_psychology": ["psychology"],
    "public_relations": ["politics"],
    "security_study": ["politics"],
    "sociology": ["culture"],
    "sports_science": ["other"],
    "traditional_chinese_medicine": ["other", "china specific"],
    "virology": ["biology"],
    "world_history": ["history"],
    "world_religions": ["global"],
}

categories = {
    "STEM": [
        "physics",
        "chemistry",
        "biology",
        "computer science",
        "math",
        "engineering",
        "statistics",
    ],
    "Humanities": ["history", "philosophy", "law", "arts", "literature", "global"],
    "Social Science": [
        "linguistics",
        "business",
        "politics",
        "culture",
        "economics",
        "geography",
        "psychology",
        "education",
        "sociology",
    ],
    "Other": ["other"],
    "China specific": ["china specific"],
}

TASK_NAME_MAPPING = defaultdict(list)
for k, v in categories.items():
    for subject, subcat in subcategories.items():
        for c in subcat:
            if c in v:
                TASK_NAME_MAPPING[k].append(subject)


choices = ["A", "B", "C", "D"]


def main(args):
    model, tokenizer = load_models_tokenizer(args)

    test_result = {}
    for subject_name in tqdm(subcategories.keys()):
        dev_file_path = os.path.join(args.eval_data_path, "dev", f"{subject_name}.csv")
        test_file_path = os.path.join(
            args.eval_data_path, "test", f"{subject_name}.csv"
        )
        dev_df = pd.read_csv(dev_file_path)
        test_df = pd.read_csv(test_file_path)

        score = eval_subject(
            model,
            tokenizer,
            subject_name,
            dev_df=dev_df,
            test_df=test_df,
            k=5,
            few_shot=True,
            save_result_dir=f"outs/cmmlu_eval_result",
            batch_size=args.batch_size
        )
        test_result[subject_name] = score
    cal_cmmlu(test_result)


if __name__ == "__main__":
    parser = argparse.ArgumentParser(description="Test HF checkpoint.")
    parser.add_argument(
        "-c",
        "--checkpoint-path",
        type=str,
        help="Checkpoint path",
        default="Qwen/Qwen-7B",
    )
    parser.add_argument("-s", "--seed", type=int, default=1234, help="Random seed")

    """Provide extra arguments required for tasks."""
    group = parser.add_argument_group(title="Evaluation options")
    group.add_argument(
        "-d", "--eval_data_path", type=str, required=True, help="Path to eval data"
    )
    group.add_argument(
        "--max-seq-len",
        type=int,
        default=2048,
        help="Size of the output generated text.",
    )
    group.add_argument(
        "--debug", action="store_true", default=False, help="Print infos."
    )
    group.add_argument(
        "--batch-size",
        type=int,
        default=1,
        help="batch size",
    )

    args = parser.parse_args()
    set_seed(args.seed)

    main(args)
add CMMLU evaluation results 1 year ago			`import os`
			`import pandas as pd`
			`import numpy as np`
			`import argparse`
			`import datasets`
			`import torch`
			`from collections import defaultdict`

			`from typing import List`
			`from tqdm import tqdm`
			`from transformers.trainer_utils import set_seed`


fix format problems in evaluation code; update ceval extraction rules 1 year ago			`"""`
add CMMLU evaluation results 1 year ago			`wget https://huggingface.co/datasets/haonan-li/cmmlu/resolve/main/cmmlu_v1_0_1.zip`
			`mkdir data/cmmlu`
			`mv cmmlu_v1_0_1.zip data/cmmlu`
			`cd data/cmmlu; unzip cmmlu_v1_0_1.zip`
			`cd ../../`
			`python evaluate_cmmlu.py -d data/cmmlu/`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`"""`

add CMMLU evaluation results 1 year ago
			`def load_models_tokenizer(args):`
			`from transformers import AutoModelForCausalLM, AutoTokenizer`
			`from transformers.generation import GenerationConfig`

fix format problems in evaluation code; update ceval extraction rules 1 year ago			`tokenizer = AutoTokenizer.from_pretrained(`
update evaluate scripts 1 year ago			`args.checkpoint_path,`
			`pad_token='<\|extra_0\|>',`
			`eos_token='<\|endoftext\|>',`
			`padding_side='left',`
			`trust_remote_code=True`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`)`
			`model = AutoModelForCausalLM.from_pretrained(`
update evaluate scripts 1 year ago			`args.checkpoint_path,`
			`pad_token_id=tokenizer.pad_token_id,`
			`device_map="auto",`
			`trust_remote_code=True`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`).eval()`
			`model.generation_config = GenerationConfig.from_pretrained(`
update evaluate scripts 1 year ago			`args.checkpoint_path,`
			`pad_token_id=tokenizer.pad_token_id,`
			`trust_remote_code=True`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`)`
add CMMLU evaluation results 1 year ago			`return model, tokenizer`


			`def format_example(line, include_answer=True):`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`example = "问题：" + line["Question"]`
add CMMLU evaluation results 1 year ago			`for choice in choices:`
			`example += f'\n{choice}. {line[f"{choice}"]}'`

			`if include_answer:`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`example += "\n答案：" + line["Answer"] + "\n\n"`
add CMMLU evaluation results 1 year ago			`else:`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`example += "\n答案："`
add CMMLU evaluation results 1 year ago			`return example`


			`def generate_few_shot_prompt(k, subject, dev_df):`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`prompt = ""`
add CMMLU evaluation results 1 year ago			`if k == -1:`
			`k = dev_df.shape[0]`
			`for i in range(k):`
			`prompt += format_example(`
			`dev_df.iloc[i, :],`
			`include_answer=True,`
			`)`
			`return prompt`


			`def get_logits(tokenizer, model, inputs: List[str]):`
update evaluate scripts 1 year ago			`input_ids = tokenizer(inputs, padding='longest')["input_ids"]`
add CMMLU evaluation results 1 year ago			`input_ids = torch.tensor(input_ids, device=model.device)`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`tokens = {"input_ids": input_ids}`
update evaluate scripts 1 year ago			`attention_mask = input_ids.ne(tokenizer.pad_token_id)`
add CMMLU evaluation results 1 year ago
update evaluate scripts 1 year ago			`outputs = model(input_ids, attention_mask=attention_mask)["logits"]`
add CMMLU evaluation results 1 year ago			`logits = outputs[:, -1, :]`
			`log_probs = torch.nn.functional.softmax(logits, dim=-1)`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`return log_probs, {"tokens": tokens}`
add CMMLU evaluation results 1 year ago

			`@torch.no_grad()`
			`def eval_subject(`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`model,`
			`tokenizer,`
			`subject_name,`
			`test_df,`
			`k=5,`
			`dev_df=None,`
			`few_shot=False,`
			`save_result_dir=None,`
update evaluate scripts 1 year ago			`batch_size=1,`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`**kwargs,`
add CMMLU evaluation results 1 year ago			`):`
			`result = []`
			`score = []`

fix format problems in evaluation code; update ceval extraction rules 1 year ago			`few_shot_prompt = (`
			`generate_few_shot_prompt(k, subject_name, dev_df) if few_shot else []`
			`)`
			`all_probs = {"prob_A": [], "prob_B": [], "prob_C": [], "prob_D": []}`
			`if args.debug:`
			`print(f"few_shot_prompt: {few_shot_prompt}")`
add CMMLU evaluation results 1 year ago
update evaluate scripts 1 year ago			`choices_ids = torch.tensor(`
			`tokenizer("A")["input_ids"] + tokenizer("B")["input_ids"] +`
			`tokenizer("C")["input_ids"] + tokenizer("D")["input_ids"]`
			`).unsqueeze(0).to(model.device)`

			`idx_list = list(range(0, len(test_df), batch_size))`
			`for i in tqdm(idx_list):`
			`full_prompt_list = []`
			`answer_list = []`
			`for row in test_df.iloc[i:i+batch_size].to_dict(orient='records'):`
			`question = format_example(row, include_answer=False)`
			`full_prompt = few_shot_prompt + question`
			`full_prompt_list.append(full_prompt)`
			`if 'Answer' in row:`
			`answer_list.append(row['Answer'])`

			`logits, input_info = get_logits(tokenizer, model, full_prompt_list)`
			`softval = logits.gather(1, choices_ids.expand(logits.size(0), -1)).softmax(1)`
add CMMLU evaluation results 1 year ago			`if softval.dtype in {torch.bfloat16, torch.float16}:`
			`softval = softval.to(dtype=torch.float32)`
			`probs = softval.detach().cpu().numpy()`

update evaluate scripts 1 year ago			`for i in range(len(probs)):`
			`for j, choice in enumerate(choices):`
			`all_probs[f"prob_{choice}"].append(probs[i][j])`
			`pred = {0: "A", 1: "B", 2: "C", 3: "D"}[np.argmax(probs[i])]`
add CMMLU evaluation results 1 year ago
update evaluate scripts 1 year ago			`if answer_list != []:`
			`correct = 1 if pred == answer_list[i] else 0`
			`score.append(correct)`
			`if args.debug:`
			`print(f'{question} pred: {pred} ref: {answer_list[i]}')`
			`result.append(pred)`
add CMMLU evaluation results 1 year ago
			`if score:`
			`correct_ratio = 100 * sum(score) / len(score)`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`if args.debug:`
			`print(subject_name, correct_ratio)`
add CMMLU evaluation results 1 year ago			`else:`
			`correct_ratio = 0`
			`if save_result_dir:`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`test_df["model_output"] = result`
add CMMLU evaluation results 1 year ago			`for i, choice in enumerate(choices):`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`test_df[f"prob_{choice}"] = all_probs[f"prob_{choice}"]`
add CMMLU evaluation results 1 year ago			`if score:`
			`test_df["correctness"] = score`
			`os.makedirs(save_result_dir, exist_ok=True)`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`test_df.to_csv(`
			`os.path.join(save_result_dir, f"{subject_name}_result.csv"),`
			`encoding="utf-8",`
			`index=False,`
			`)`
add CMMLU evaluation results 1 year ago
			`return correct_ratio`


			`def cal_cmmlu(res):`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`print("\n\n\n")`
			`res = {k.split("-")[-1]: float(v) for k, v in res.items()}`
add CMMLU evaluation results 1 year ago			`for k, v in TASK_NAME_MAPPING.items():`
			`avg_acc = np.mean(list(map(lambda x: res[x], v)))`
			`print(f"{k} acc: {avg_acc:.2f}")`
			`avg_all_acc = np.mean(list(res.values()))`
			`print(f"AVERAGE acc: {avg_all_acc:.2f}")`


			`subcategories = {`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`"agronomy": ["other"],`
			`"anatomy": ["biology"],`
			`"ancient_chinese": ["linguistics", "china specific"],`
			`"arts": ["arts"],`
			`"astronomy": ["physics"],`
			`"business_ethics": ["business"],`
			`"chinese_civil_service_exam": ["politics", "china specific"],`
			`"chinese_driving_rule": ["other", "china specific"],`
			`"chinese_food_culture": ["culture", "china specific"],`
			`"chinese_foreign_policy": ["politics", "china specific"],`
			`"chinese_history": ["history", "china specific"],`
			`"chinese_literature": ["literature", "china specific"],`
			`"chinese_teacher_qualification": ["education", "china specific"],`
			`"college_actuarial_science": ["math"],`
			`"college_education": ["education"],`
			`"college_engineering_hydrology": ["engineering"],`
			`"college_law": ["law"],`
			`"college_mathematics": ["math"],`
			`"college_medical_statistics": ["statistics"],`
			`"clinical_knowledge": ["other"],`
			`"college_medicine": ["other"],`
			`"computer_science": ["computer science"],`
			`"computer_security": ["other"],`
			`"conceptual_physics": ["physics"],`
			`"construction_project_management": ["other", "china specific"],`
			`"economics": ["economics"],`
			`"education": ["education"],`
			`"elementary_chinese": ["linguistics", "china specific"],`
			`"elementary_commonsense": ["other", "china specific"],`
			`"elementary_information_and_technology": ["other"],`
			`"electrical_engineering": ["engineering"],`
			`"elementary_mathematics": ["math"],`
			`"ethnology": ["culture", "china specific"],`
			`"food_science": ["other"],`
			`"genetics": ["biology"],`
			`"global_facts": ["global"],`
			`"high_school_biology": ["biology"],`
			`"high_school_chemistry": ["chemistry"],`
			`"high_school_geography": ["geography"],`
			`"high_school_mathematics": ["math"],`
			`"high_school_physics": ["physics"],`
			`"high_school_politics": ["politics", "china specific"],`
			`"human_sexuality": ["other"],`
			`"international_law": ["law"],`
			`"journalism": ["sociology"],`
			`"jurisprudence": ["law"],`
			`"legal_and_moral_basis": ["other"],`
			`"logical": ["philosophy"],`
			`"machine_learning": ["computer science"],`
			`"management": ["business"],`
			`"marketing": ["business"],`
			`"marxist_theory": ["philosophy"],`
			`"modern_chinese": ["linguistics", "china specific"],`
			`"nutrition": ["other"],`
			`"philosophy": ["philosophy"],`
			`"professional_accounting": ["business"],`
			`"professional_law": ["law"],`
			`"professional_medicine": ["other"],`
			`"professional_psychology": ["psychology"],`
			`"public_relations": ["politics"],`
			`"security_study": ["politics"],`
			`"sociology": ["culture"],`
			`"sports_science": ["other"],`
			`"traditional_chinese_medicine": ["other", "china specific"],`
			`"virology": ["biology"],`
			`"world_history": ["history"],`
			`"world_religions": ["global"],`
add CMMLU evaluation results 1 year ago			`}`

			`categories = {`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`"STEM": [`
			`"physics",`
			`"chemistry",`
			`"biology",`
			`"computer science",`
			`"math",`
			`"engineering",`
			`"statistics",`
			`],`
add CMMLU evaluation results 1 year ago			`"Humanities": ["history", "philosophy", "law", "arts", "literature", "global"],`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`"Social Science": [`
			`"linguistics",`
			`"business",`
			`"politics",`
			`"culture",`
			`"economics",`
			`"geography",`
			`"psychology",`
			`"education",`
			`"sociology",`
			`],`
			`"Other": ["other"],`
add CMMLU evaluation results 1 year ago			`"China specific": ["china specific"],`
			`}`

			`TASK_NAME_MAPPING = defaultdict(list)`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`for k, v in categories.items():`
add CMMLU evaluation results 1 year ago			`for subject, subcat in subcategories.items():`
			`for c in subcat:`
			`if c in v:`
			`TASK_NAME_MAPPING[k].append(subject)`


			`choices = ["A", "B", "C", "D"]`


			`def main(args):`
			`model, tokenizer = load_models_tokenizer(args)`

			`test_result = {}`
			`for subject_name in tqdm(subcategories.keys()):`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`dev_file_path = os.path.join(args.eval_data_path, "dev", f"{subject_name}.csv")`
			`test_file_path = os.path.join(`
			`args.eval_data_path, "test", f"{subject_name}.csv"`
			`)`
add CMMLU evaluation results 1 year ago			`dev_df = pd.read_csv(dev_file_path)`
			`test_df = pd.read_csv(test_file_path)`

fix format problems in evaluation code; update ceval extraction rules 1 year ago			`score = eval_subject(`
			`model,`
			`tokenizer,`
			`subject_name,`
			`dev_df=dev_df,`
			`test_df=test_df,`
			`k=5,`
			`few_shot=True,`
			`save_result_dir=f"outs/cmmlu_eval_result",`
update evaluate scripts 1 year ago			`batch_size=args.batch_size`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`)`
add CMMLU evaluation results 1 year ago			`test_result[subject_name] = score`
			`cal_cmmlu(test_result)`


fix format problems in evaluation code; update ceval extraction rules 1 year ago			`if __name__ == "__main__":`
			`parser = argparse.ArgumentParser(description="Test HF checkpoint.")`
			`parser.add_argument(`
			`"-c",`
			`"--checkpoint-path",`
			`type=str,`
			`help="Checkpoint path",`
			`default="Qwen/Qwen-7B",`
			`)`
			`parser.add_argument("-s", "--seed", type=int, default=1234, help="Random seed")`
add CMMLU evaluation results 1 year ago
			`"""Provide extra arguments required for tasks."""`
fix format problems in evaluation code; update ceval extraction rules 1 year ago			`group = parser.add_argument_group(title="Evaluation options")`
			`group.add_argument(`
			`"-d", "--eval_data_path", type=str, required=True, help="Path to eval data"`
			`)`
			`group.add_argument(`
			`"--max-seq-len",`
			`type=int,`
			`default=2048,`
			`help="Size of the output generated text.",`
			`)`
			`group.add_argument(`
			`"--debug", action="store_true", default=False, help="Print infos."`
			`)`
update evaluate scripts 1 year ago			`group.add_argument(`
			`"--batch-size",`
			`type=int,`
			`default=1,`
			`help="batch size",`
			`)`
add CMMLU evaluation results 1 year ago
			`args = parser.parse_args()`
			`set_seed(args.seed)`

			`main(args)`